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New chemical manufacturing technologies can pose an opportunity or a threat. Whether you are acquiring a new technology or responding to a rival, the ability to quickly compare technical designs and production costs is a competitive advantage.
Process Economics Program (PEP) Yearbook is the world’s largest online process economics database, with access to 2,000+ process technologies used to produce 600+ chemicals in 6 regions.The only source for new process analysis, PEP Reports and Reviews allow you to uncover the impact of changes in processes, feedstocks, energy prices, and government regulations on chemical and fuel production economics. In addition, with the iPEP Navigator, you can generate process economics tailored to your project needs.
Chemical, energy, engineering and investment firms use PEP to:
Reduce the time and cost it takes to collect and assess new technology information
Make investment and production decisions based on unbiased, expert assessments
Customize process economics data to specific project needs
Compare production costs and technical designs to optimize technology selection
Keep pace with technology, market and regulatory developments
Capitalize on market shifts and mitigate competitor threats
To learn more about each of our PEP products and how you can use them, click on the individual report names below.
Clients can view abstracts, tables of contents, and prices for individual reports by viewing the listing of PEP reports currently available. To view the listing of recently issued reports, see Latest Updates under Chemical News.
The 2024 PEP schedule is available here(opens in a new tab).
The 2023 PEP schedule is available here(opens in a new tab).
The 2022 PEP schedule is available here(opens in a new tab).
Report Number | Report Name |
---|---|
32G | Ammonia Cracking Technologies for Hydrogen Production |
199J | Base Chemicals from Plastics Pyrolysis Oil |
29N | Net-zero Ethylene Production by Steam Cracking of Naphtha |
32F | Commercially Available Blue Hydrogen Production |
199I | Tire Recycling |
115E | Biodegradable Polymers |
309 | Bio-Based Monoethylene Glycol |
43G | Reduced Carbon Intensity and Renewable Methanol Production |
303D | Crude Oil Conversion to Chemicals |
29L | Bioethylene by Ethanol Dehydration |
227 | 1,3 Propanediol and Polytrimethylene Terephthalate (PTT) |
20, 20A, 20B, 20C | ABS Resins |
69, 69A | Acetal Resins |
24, 24A/2 | Acetaldehyde |
37, 37C | Acetic Acid |
37A, 37B | Acetic Acid and Acetic Anhydride |
77 | Acetone, Methyl Ethyl Ketone (MEK) and Methyl Isobutyl Ketone |
16, 16A | Acetylene |
109 | Acetylene vs. Ethylene as a Chemical Raw Material |
216 | Acid Gas Treatment and Sulfur Recovery |
99 | Acrylamide and Polyacrylamide 99 |
6E | Acrylic Acid from Glycerin |
6, 6A, 6B, 6C, 6D | Acrylic Acids and Acrylic Esters |
6F | Acrylic Acid |
17, 17A, 17A/1, 17A/2, 17A/3, 17B | Acrylonitrile |
78 | Acrylonitrile Thermoplastics |
83, 83A | Adhesives |
3, 3A, 3B | Adipic Acid |
257 | Advanced Biorefineries |
180C, 180D | Advanced Carbon Capture |
51B | Advanced Composite Materials |
247A | Advanced Gas-to-Liquid Process |
196 | Advanced Structural Ceramics |
44, 44A, 44B | Advances in Ammonia Technology |
251A | Advances in Biodiesel and Renewable Diesel Production |
129A, 129B, 129C | Advances in Catalytic Reforming |
195, 195A | Advances in Fluid Catalytic Cracking |
187, 187A | Advances in Hazardous Waste Treatment |
190C | Advances in Membrane Technology for Chemical Separation Applications |
199E | Advances in Mixed Plastics Chemical Recycling |
248A | Advances in Naphtha Steam Cracking |
275 | Advances in Natural Gas Conversion Technologies |
225 | Advances in Oxidation Technology |
25D | Advances in p-Xylene Technologies |
56B | Advances in Urea Technology |
1F | Aliphatic Diisocyanates Processes |
59, 59A | Aliphatic Surfactants |
203 | Alkane Dehydrogenation and Aromatization |
138 | Alkyl Amines |
180G | Alternative Carbon Capture Technologies |
88, 88A, 88B,88C | Recent Advances in Light Hydrocarbon Alkylation |
44C | Ammonia |
106, 106A | Amino Acids |
76C | Aniline and Derivatives |
59B | Anionic Surfactants |
85, 85A | Antioxidants |
85B | Antioxidants and Light Stabilizers |
167 | Aramids |
76, 76A/1, 76B | Aromatic Amines |
182, 182A, 182B | Aromatic Processes |
30, 30A | Aromatics BTX |
25E | Aromatics Upgrading Technologies |
209 | Aromatics Industry Outlook |
144 | Ascorbic Acid |
179 | Barrier Resins |
310 | Batteries for Electric Vehicles |
145 | Battery Limits Cost Estimating |
145C | Battery Limit Cost Estimation |
145D | Waste Treatment Cost Estimation |
19G | Bimodal HDPE |
19E | Bimodal Linear Low-Density Polyethylene |
284 | Bio-Based Adipic Acid |
59C | Bio-Based Anionic Surfactants |
259 | Bio-based C3s |
294 | Bio-Based Furan Dicarboxylic Acid and Its Polymer Polyethylene Furanoate |
265, 265A | Bio-based Polymers |
265B | Bio-based Polymers |
217 | Bio-Based Polyols |
206A | Bio-Based Solvents |
292 | Bio-Based Succinic Acid |
278B | Bio-based Sustainable Aviation Fuels |
264 | Biobutanol |
241 | Biocatalysis |
263 | Biochemical Cellulosic Ethanol |
115D | Biodegradable Polymer Life Cycle Assessment |
115C | Biodegradable Polymers |
250 | Biodegradable Polymers from Plants |
251 | Biodiesel Production |
278 | Biofuels from Algae |
258 | Biomass Gasification |
302 | Biomass Pretreatment |
286 | Biomass Pyrolysis |
188 | Biotechnology Reaction Systems |
188A, 188B | Biotechnology Separation Processes |
192 | Bisphenol A and Alkylated Phenols |
192A | Bisphenol A |
81 | Bisphenol A and Phosgene |
175B | Blends Containing Engineering Thermoplastics |
175A | Blends Containing Polyolefins |
175 | Blends of Thermoplastic Polymers |
146 | Bulk Chemicals from Synthesis Gas |
35, 35A/1, 35B, 35C | Butadiene |
35D | Butadiene as a Low Chemical Raw Material |
74 | Butylene Polymers |
71, 71A | Butylenes |
118 | Butyrolactam and Laurolactam 118 |
126 | C1 Chlorinated Hydrocarbons |
7/1, 7/2, 7A, 7B, 7C | Caprolactam |
7D | Caprolactam Update |
90 | Carbon Black |
180B | Carbon Capture from Coal Fired Power Generation |
180A | Carbon Capture From Natural Gas Power Generation |
237 | Carbon Dioxide (CO2) Emissions Reduction |
180H | Carbon Dioxide Capture Economics Model |
180I | Carbon Dioxide Capture Economic Model – Part II |
180 | Carbon Dioxide Separation |
285A | Carbon Dioxide Utilization Technologies |
165, 165A | Carbon Fibers |
123 | Carbon Monoxide |
153, 153A | Catalysts |
153F | Catalysts for Polyolefins |
153C | Catalysts for Polypropylene for Polyethylene Production |
153G | Catalysts for Reforming Naphtha to Hydrocarbons |
263A | Cellulosic Bioethanol |
100 | Chemical Production by Fischer-Tropsch and Related Syntheses |
RP199D | Chemical Recycling of PET |
234 | Chemicals for Electronics Industry |
252 | Chemicals From Agricultural Wastes |
235 | Chemicals from Ethanol |
236 | Chemicals from Renewable Resources |
147 | Chemicals from Wood and Wood Wastes |
232 | Chiral Intermediates |
48 | Chlorinated Solvents |
61, 61A, 61B, 61C, 61D | Chlorine |
61E | Chlorine-Advanced Commercial Chlor-Alkali Technology |
112 | Chlorine Dioxide, Chlorates, Chlorites and Hypochlorites |
201 | Chlorofluorocarbon Alternatives |
67 | Chloroprene |
154, 154A, 154B | Coal Gasification |
101 | Coal Tar Chemicals |
271 | Coal to Gasoline |
305 | Coal to Liquids |
279 | Coal to Olefins |
277 | Coal to Substitute Natural Gas |
181, 181A | Cogeneration 181A |
181B | Commercial Scale Cogeneration |
280 | Compendium of Leading Bioethanol Technologies |
162 | Computer Program for Estimating Plant Envestment |
119 | Construction Costs |
213 | Copolyesters |
148/1 | Costs of Synthesis Gases and Methanol |
49, 49A1 | Cresols and Cresylic Acids |
303 | Crude Oil to p-Xylene Hengli Refinery-PX Complex |
303C | Crude Oil to p-Xylene—Shenghong Refinery-PX Complex |
303A | Crude Oil to p-Xylene – Zhejiang Refinery-PX Complex |
219 | Cumene |
219A | Cumene |
238 | Custom Chemical Manufacture |
133 | Desalination |
183 | Detergent Builders |
75 | Dibasic Acids for Nylon Manufacture |
79, 79A | Dihydroxybenzenes |
301 | Dimethyl Carbonate |
235A | Direct Ethanol to C4 Chemicals and Fuels |
245B | Dimethyl Ether (DME) From Coal |
245 | Dimethyl Ether As Alternate Fuel |
245A | Dimethyl Ether As Fuel |
243A | Direct Methanol Fuel Cells |
299 | Direct Syngas to Light Olefins |
102 | Disposal and Recovery of Waste Organo-Chlorides |
260 | Economics and Petrochemical Cycles |
107 | Economics of Chemical Refineries |
127B | Economics of Fertilizer Complexes |
204 | Economics of Petrochemical Complexes |
172 | Economics of Petrochemical Production in Saudi Arabia and Western Canada |
204A | Economics of Petrochemicals in S.E. Asia |
204B | Economics of Petrochemicals Production In China |
116 | Electron Beam Curing Polymers |
115, 115A, 115B | Environmentally Degradable Polymers |
139 | Enzyme Technology |
38, 38A | Epoxy Resins |
145A | Estimating Plant Investments |
149 | Ethanol for Gasohol |
149A | Ethanol Production in Brazil |
29, 29B, 29E | Ethylene |
29O | Ethylene e-Cracker: Comparative Analysis of Electricity Sources For Naphtha Cracking |
29F | Ethylene by Non-Conventional Processes |
155 | Ethylene Copolymers |
220 | Ethylene Feedstock Outlook |
208 | Ethylene from Methane |
150 | Ethylene from Refinery Gas |
2I | Ethylene Glycol |
70A, 70B | Ethylene Glycol |
70 | Ethylene Glycols, Glycol Ethers and Ethanolamines |
29D | Ethylene Industry Profiles |
2F | Ethylene Oxide and Ethylene Glycol |
193 | Ethylene Oxide Derivatives |
29C | Ethylene Plant Conversion |
29G | Ethylene Plant Enhancement |
4, 4A, 4C | Ethylene Propylene Co-Polymer and Terpolymers |
4B | Ethylene Propylene Terpolymer Rubber |
29A | Ethylene-Propylene |
155A | Ethylene/Vinyl Acetate Copolymers |
155B | Ethylene-Vinyl Acetate Copolymers |
306 | Ethylene via Acetylene from Natural Gas |
205B | Experience Curves |
42, 42A/1 | Fatty Acids |
40 | Fatty Nitrogen Compounds |
95 | Fermentation Processes |
127 | Fertilizers - Ammonium Phosphate |
127A/1 | Fertilizers - Nitrogen |
92 | Flame Retardant Additives |
92A | Flame Retardant Additives |
114 | Flame Retardant Polyols |
166, 166A | Fluorinated Polymers |
166B | Fluoropolymers |
97, 97A | Foamed Plastics |
23, 23A | Formaldehyde |
23B | Formaldehyde |
156 | Formic Acid |
274 | Fuel Alcohols and Electricity Cogeneration from Petroleum Coke Gasification |
243 | Fuel Cells for Vehicles and Power |
231 | Fuels for 21st Century Vehicles |
52 | Furnace Phosphorus and Phosphoric Acid |
132 | Gas Oil Conversion to Fuels and Petrochemicals |
247 | Gas To Liquids |
273 | Gasoline Benzene Removal |
239 | Global Chemical Industry in the 21st Century |
58 | Glycerine and Intermediates |
266 | Heavy Oil from Tar Sands |
214A | Heavy Oil Hydrotreating |
210 | Hetercyclic Nitrogen Compounds |
31, 31A, 31B, 31C | Hexamethylenediamine |
184 | High Purity Silicon 184 |
86, 86A, 86B, 86D, 86E, 86F | High Temperature Polymers |
19C, 19D | High-Density Polyethylene |
RP195B | High Olefins Fluid Catalytic Cracking Processes |
174A | High-Output Fluidized Bed Polyethylene Technology |
268 | Higher Alcohols from Syngas, Technology Survey |
134 | Hydrochloric Acid |
211 | Hydrocracking |
211A | Hydrocracking for Middle Distillates |
211B | Hydrocracking of Heavy Oils and Residua |
211C | Hydrocracking by Slurry Process |
89 | Hydrofluoric Acid and Fluorocarbons |
32, 32A | Hydrogen |
32E | Hydrogen by Electrolysis |
199K | Hydrogen from Plastic Waste |
68B | Hydrogen Peroxide |
68, 68A/1 | Hydrogen Peroxide and Peracetic Acid |
32C | Hydrogen Production |
214 | Hydrotreating |
32D | Hydrogen Delivery Options |
242 | Industrial Coatings |
139A | Industrial Enzymes |
226 | Innovative Chemical Reactors |
226A | Innovative Reactors and Process Intensification |
169A | Integrated Refinery/Petrochemical Profitability |
124, 124A | Ion Exchange Resins |
256 | Ionic Liquids |
1A/1, 1A/2, 1B, 1C/1, 1C/2, 1D, 1E | Isocyanates |
91 | Isomerization of Paraffins 91 |
28, 28A/1, 28B | Isoprene |
293 | Iso-C4 Processes |
247D | Large-scale Gas-to-Liquids Plants |
199G | Large-scale Pyrolysis—Plastic Chemical Recycling |
RP297 | Light Hydrocarbon and Light Naphtha Utilization |
12, 12A, 12B/1, 12C, 12D, 12E | Linear Alpha Olefins |
303E | Light olefins focused crude oil to chemicals complex |
163 | Linear C12-C15 Primary Alcohols |
27 | Linear Higher Alcohols |
36C, 36E | Linear Low Density Polyethylene |
19, 19A, 19B | Linear Polypropylene and Polyethylene |
103 | Liquefied Natural Gas |
103A | Liquefied Natural Gas |
191A | Liquid Hydrocarbons from Synthesis Gas |
204C | Location Factors |
36, 36A, 36B, 36D | Low Density Polyethylene |
307 | Lubricant Base Oils |
310A | Lithium-based Materials for Battery Production |
157, 157A | Lubricating Oil Additives |
46, 46A/1, 46B, 46C | Maleic Anhydride |
199F | Mechanical Recycling of Waste Polymers |
43D | Mega Methanol Plants |
122 | Melamine |
190A | Membrane Gas Separation Processes |
190 | Membranes for Gas Separation |
296 | Metallocene Polyalphaolefins (PAO) |
11, 11A, 11B, 11C, 11D | Methacrylic Acid and Methacrylic Esters |
43, 43A/1, 43B, 43C, 43F | Methanol |
111 | Methanol as a Chemical Raw Material |
111A | Methanol Based Chemicals |
43E | Methanol From Coal |
282 | Methanol to Gasoline |
261 | Methanol to Olefins |
255 | Methyl Methacrylate |
131 | Methyl Tertiary-Butyl Ether and Tertiary-Butyl Alcohol (TBA) |
108 | Middle East's Potential in Chemicals |
177 | Mining Chemicals |
202 | Monomers for High Performance Polymers |
285B | Monetizing CO₂ |
55 | N-Paraffins |
29K | Naphtha Catalytic Cracking |
135, 135A | Natural Gas Liquids |
216A | Natural Gas Acid Gas Removal and Sulfur Recovery |
216B | Natural Gas Sweetening by Membrane Separation |
246 | Near-Zero Sulfur Diesel Fuel |
4D | New Generation EPDM Technologies 4D |
21F | New Generation Oxo Alcohols |
180F | Next Generation Carbon Capture |
153D | Non-Metallocene Single Site Catalysts |
168 | Nonionic Surfactants |
200 | NOx Removal |
41, 41A | Nylon 6 |
41B | Nylon 6 and Caprolactam |
54, 54A, 54B | Nylon 6,6 |
224 | Ocean Transportation Freight Rates |
158B | Octane Improvers |
158, 158A | Octane Improvers for Gasoline |
145B | Offsite Investment Cost Estimation |
142 | Oilfield Chemicals |
35E | On-Purpose Butadiene Production |
281 | On-Purpose Technologies for Polyethylene Comonomers |
140, 140A | Operating Costs in the Chemical Industry |
135C | Opportunities for Gas-to-Liquid Technologies |
212 | Options for Refinery Hydrogen |
304 | Options to Meet Impending Marine Bunker Fuel Specifications |
234A | Organic Light Emitting Diodes |
113 | Organic Phosphorus Compounds |
21, 21A, 21B, 21C, 21D, 21E | Oxo Alcohols |
221 | Oxygenate Economics |
190B | Pervaporation |
171, 171A, 171B, 171C, 171D | Pesticides and Intermediates |
205, 205A | Petrochemical Industry Profitability |
169B | Petrochemicals From Refinery Streams |
72, 72A/1, 72B | Petroleum Coke |
47, 47A | Petroleum Desulfurization |
222 | Petroleum Industry Outlook |
215 | Petroleum Refining Profitability |
120 | Petroleum Resins |
22, 22A, 22B, 22C, 22D | Phenol |
34, 34A, 34B | Phthalic Anhydride |
159 | Plastic Films |
199, 199A | Plastics Reclamation and Recycling 199 |
199B | Plastics Recycling to Liquids |
65A | Poly(meth)acrylates |
164 | Polyacetylene and Other Inherently Conducting Polymers |
65 | Polyacrylates |
94/1, 94/2 | Polyamides Other Than Nylons 6 and 66 |
73 | Polybutadiene |
96, 96A, 96B | Polybutylene Terephthalate (PBT) and Butanediol |
50, 50A, 50B, 50C, 50D, 50E, 50F | Polycarbonate Update |
223 | Polycyclic Olefins |
189 | Polyesters Thermoplastic |
185A | Polyethylene by Slurry-Phase Polymerization |
202A | Polyethylene Naphthalate Monomers |
18, 18A, 18B, 18C | Polyethylene Terephthalate |
18D | Polyethylene Terephthalate |
141, 141A | Polyethylene Terephthalate Bottles and Bottle Resins |
82 | Polyisoprene |
51C, 51D | Polymer Nanocomposites |
308 | Polyolefin Elastomers/Plastomers (POE/POP) |
173 | Polyolefin Specialty Products |
174 | Polyolefins by Gas Phase Processes |
45A | Polyols for Making Polyurethanes 45A |
45B | Polyols for Polyurethanes |
45C | Polyols for Polyurethanes |
45 | Polyols from Ethylene Oxide and Propylene Oxide |
128, 128A, 128E | Polypropylene |
128C | Polypropylene Update 128C |
272 | Polysilicon for Solar Wafers |
39, 39A, 39B, 39D | Polystyrene |
10, 10A, 10B, 10C, 10D | Polyurethanes |
57, 57A | Polyvinyl Acetate and Polyvinyl Alcohol |
13, 13A, 13B, 13C/1, 13D, 13E | Polyvinyl Chloride |
RP199C | Post–Consumer Plastic Recycling |
14 | Potash Fertilizers |
304A | Powering Shipping with Low Carbon Options |
98, 98A | Powder Coatings |
17/C | Propane-Based Acrylonitrile |
267B | Propane Dehydrogenation (II) |
267A | Propane Dehydrogenation Process Technologies |
267C | Propylene by Olefin Conversion Processes |
267D | Propane Dehydrogenation |
262 | Propylene Glycol from Glycerin |
178, 178A | Propylene Industry Outlook |
2E, 2G, 2H | Propylene Oxide |
2, 2A, 2B, 2C, 2D | Propylene Oxide And Ethylene Oxide |
198 | Propylene Oxide Derivatives |
267 | Propylene Production |
60, 60A | Proteins from Hydrocarbons |
9H | Purified Terephthalic Acid (PTA) |
195C | Pushing FCC for Maximum Chemicals Production |
143 | Pyrethroid Insecticides |
29M | Reduced Carbon Intensity Ethylene Production |
151 | Recovery of Low Temperature Heat |
254 | Refinery C5s Hydrocarbons |
237A | Refinery CO2 Emission Reduction |
153E | Refinery Catalysts |
303B | Refinery Configurations for Maximizing Crude Oil to Chemicals Production |
229 | Refinery Residue Gasification |
228 | Refinery Residue Updating |
169 | Refinery/Chemicals Interface |
129 | Reforming for BTX |
51, 51A | Reinforced Plastics |
180E | Retrofitting for Carbon Capture |
278A | Second Generation Biofuels |
160 | Silicones |
153B | Single-Site Catalysts |
185 | Slurry Phase Polypropylene |
285C | Small-scale CO2 Utilization Plants |
247B | Small Scale Gas-to-Liquids Technology |
32B | Small-Scale Hydrogen Production |
187B | Soil Remediation |
276 | Solar Photovoltaic Technology |
199H | Solvent-Based Recycling of Waste Plastics |
206 | Solvents Specialty |
218 | Speciality Surfactants |
159A, 159B | Specialty Plastic Films |
173A | Specialty Polyolefins: VLDPE |
207 | Specialty Styrenic Thermoplastics |
186 | Specialty Thermoplastic Elastomers |
29J | Steam Cracking of Crude Oil |
248 | Steam Cracking For Olefins Production |
244 | Strategic Business Units for Epoxy Resins and Polycarbonates |
249 | Strategic Business Units of ABS and Polystyrene Resins |
240 | Strategic Business Units of Nylon 6 and Nylon 66 |
33, 33A, 33B, 33C | Styrene |
176 | Styrene and p-Methylstyrene and Polymers |
64 | Styrene Butadiene Elastomers |
63C | Sulfur Dioxide Removal From Flue Gases |
63, 63A, 63B | Sulfur Dioxide Removal From Stack Gases |
230 | Sulfur Removal from Petroleum Fuels |
84, 84A | Sulfuric Acid |
194, 194A | Superabsorbent Polymers |
19F | Supercritcal Loop Reactor Slurry Process for Producing Polyethylene and Polypropylene |
269 | Supercritical CO2: a Green Solvent |
197 | Supercritical Fluid Processing |
278C | Sustainable Fuels from Waste Residues |
170 | Sweeteners |
65B | Syndiotactic Poly(meth)acrylates |
128B | Syndiotactic Polypropylene 128B |
39C | Syndiotactic Polystyrene |
RP298 | Syngas Fermentation Processes |
148A | Synthesis Gas |
110 | Synthesis Gas Production |
148D | Synthesis Gas Production from Chinese Gasifiers |
148C | Synthesis Gas Production from Coal and Petroleum Coke Gasification |
148B | Synthesis Gas Production from Natural Gas Reforming |
53, 53A, 53A/1 | Synthetic Ethanol and Isopropanol |
285D | Synthetic Fuels from Hydrogen and Captured Carbon Dioxide |
125A | Synthetic Lubricant Base Stocks |
125 | Synthetic Lubricants |
87 | Synthetic Paper |
303F | TC2C™ Thermal Crude to Chemicals Technology |
128D | Technologies for the Production of Secondary Propylene |
9F | Terephthalic Acid |
9, 9A, 9B, 9C, 9E | Terephthalic Acid and Dimethyl Terephthalate |
233 | The Promise of New Technology Platforms for Biotechnology |
270 | Thermochemical Cellulosic Ethanol |
175C | Thermoplastic Elastomer Blends |
104, 104A | Thermoplastic Elastomers |
93A | Thermosetting Matrix Resins |
93 | Thermosetting Resins |
117 | Titanium Dioxide Pigment |
80 | Treatment of Petrochemical Wastewater |
66 | Trimellitic and Pyromellitic Anhydrides |
300 | Unconventional Aromatics Processes |
26, 26A | Unsaturated Polyesters |
56, 56A | Urea |
136, 136A | Utilities Plant Costs |
191 | Utilization of Remote Methane |
152 | UV Curing of Coatings Inks and Adhesives |
161 | Vacuum Residuum as a Petrochemical Feedstock |
247E | Value-Added Products from GTL Plants |
15, 15A | Vinyl Acetate |
15C | Vinyl Acetate Monomer |
15B | Vinyl Acetate/Polyvinyl Acetate |
5, 5A, 5B, 5B/1, 5C, 5D | Vinyl Chloride |
62, 62A | Vinyl Plasticizers |
253 | Vinyl Polymers |
105 | Vinylidene Chloride, Monomer and Polymers |
137 | Waste Treatment Costs |
295 | Wastewater Treatment Technologies |
130A | Water-Soluble Polymers |
130 | Water-Soluble Resins |
8, 8A, 8B, 8C | Wet Process Phosphoric Acid |
121, 121A, 121B, 121C | World Petrochemical Feedstocks |
25, 25A, 25B/1, 25C | Xylenes Separation |
Review Number | Review Name |
---|---|
2024-01 | Carbon Footprint of Chemical Industry |
2024-03 | Production of MDEA |
2024-04 | Ultrapure Water for Green Hydrogen |
2024-06 | Bastnäsite Ore Processing for Rare-earth Oxide Production — Part I |
S2024-16 | Small Modular Reactors White Paper |
2024-15 | Polyvinylidene Fluoride using Non-Fluorinated Surfactant |
2024-12 | Ammonia as a Direct Fuel for Gas Turbine |
2024-10 | Dynamic Construction Location Factors Update |
2024-09 | Biogas from Biomass |
2024-07 | On-purpose Butadiene Production by LG-Chem process |
2024-05 | Hydrodealkylation of Toluene for Benzene Production by Axens Technology |
2024-02 | Per- and Polyfluoroalkyl Substances (PFAS): A Profile |
2023-15 | Dynamic Construction Location Factors Update |
2023-14 | Novolen® Polypropylene Update |
2023-13 | TrueBlue Methanol®Process |
2023-12 | Vinyl Chloride Monomer |
2023-11 | Sour Water Stripping with Ammonia Separation |
2023-10 | Monetizing CO₂ Impact of Rules 45Q and 45V |
2023-09 | Hydrochloric Acid from Hydrogen and Chlorine |
2023-08 | Diesel Hydrocracking for Naphtha |
2023-07 | Oleic Acid from Crude Palm Oil |
2023-06 | UOP MaxEne™ Process |
2023-05 | XPRIZE Milestone Award Winners - A First Look at Their Commercial Prospects |
2023-04 | Green Ammonia via Electrolytic Hydrogen |
2023-03 | Gasoline Production by GT-BTX PluS |
2023-02 | Blue Ammonia via Casale’s A6000CC™ Technology |
2023-01 | CO2 to Ethylene via Electroreduction |
2022-15 | Decarbonizing a Palm Oil Mill and Refinery |
2022-14 | Isopropyl Alcohol (IPA) from Acetone |
2022-13 | Polybutylene Terephthalate |
2022-12 | Propylene Glycol from Glycerin by Sulzer GTC’s GT-ProGSM Process |
2022-11 | Blue Hydrogen Via Autothermal Reforming |
2022-10 | Assessment of a Biogas Refinery |
2022-09 | Phthalic Anhydride-An Update |
2022-08 | Methanol-to-Hydrogen Conversion Process |
2022-07 | Blue Hydrogen |
2022-06 | Deep Catalytic Cracking (DCC) |
2022-05 | Dow Net-zero Olefins from Ethane |
2022-04 | Low Carbon Ethylene Production via E-furnace Powered by NET Power Cycle |
2022-03 | Net-zero carbon ethylene production via recovery of CO2 from cracking furnace flue gas |
2022-02 | Natural Gas to Ammonia by Linde Ammonia Concept (LAC™) Process | S&P Global |
2022-01 | Mitsubishi Gas Chemical Methanol Process | S&P Global |
2021-15 | Hydrogen from Natural Gas with Carbon Capture |
2021-14 | Economics of LNG Cold Energy Utilization by Generation of Electricity |
2021-13 | Cost Analysis of a Typical Oil and Gas Production Unit |
2021-12 | Fertilizer Grade Ammonium Nitrate Production by KBR Process |
2021-11 | FCC Revamp Economics |
2021-10 | Carbon Footprint and Allocation in an Integrated Refinery - Petrochemical Complex |
2021-09 | Wet Sulfuric Acid Process |
2021-08 | Hydrogen from Natural Gas with 60% Carbon Dioxide Capture |
2021-07 | Hydrogen and Carbon Black by Methane Pyrolysis |
2021-06 | Polyethylene Production by Borealis' Borstar® 3G PE Multimodal Process |
2021-05 | Natural Gas to Gasoline by Haldor Topsøe’s TIGAS™ Process |
2021-04 | Mixed Feed Naphtha Steam Cracking |
2021-03 | Sulfur forming—Granulation Process |
2021-02 | Electric Power Via NET Power |
2021-01 | Processing Lean Natural Gas |
2020-15 | Green Ammonia Technology |
2020-14 | Maleic Anhydride from n-Butane by Scientific Design Co. process |
2020-13 | Plastic Recycling-Value Preservation and Carbon Avoidance |
2020-12 | Ethane Export Terminal |
2020-11 | Integrated Cumene-Phenol/Acetone-Bisphenol A-Part III: Bisphenol A (BPA) |
2020-10 | Integrated Cumene-Phenol/Acetone/Bisphenol A - Part II: Phenol/Acetone |
2020-09 | Integrated cumene-phenol/acetone/Bisphenol A- Part I: Cumene |
2020-08 | Maleic Anhydride by Huntsman Technology |
2020-07 | Green Methanol Production Process |
2020-06 | LNG Regasification Terminal |
2020-05 | Floating Methanol Production |
2020-04 | KBR K-COT Catalytic Cracking Process |
2020-03 | Polyetherketoneketone (PEKK) |
2020-02 | Phenol Production by ExxonMobil 3-step Process |
2020-01 | Ethylene to Alkylate Process by Next Wave Energy |
2019-15 | Plastic Recycling and Sustainability—a Process Economics Framework |
2019-14 | Full Density Polyethylene |
2019-13 | TM Ionikylation Process" href="https://www.spglobal.com/commodityinsights/en/ci/products/pep-review-2019-13-Well-resources-ionikylation-process.html">Well ResourcesTM Ionikylation Process |
2019-12 | Dynamic Construction Location Factors |
2019-11 | MAX-ISOM™ Technology |
2019-10 | DMTE Technology - Syngas to Methyl Acetate or Ethanol |
2019-09 | SuperClaus® Process for enhanced sulfur recovery |
2019-08 | MEG Process via Formaldehyde |
2019-07 | Hydrogen Production by Electrolysis |
2019-06 | Methanol from Coke-oven Gas |
2019-05 | Hydrochloric Acid (HCl) Recycle to Chlorine by the Sumitomo Catalytic Oxidation Process |
2019-04 | Waste Treatment Costs for Non-Phosgenation Based Polycarbonate Production |
2019-03 | Single Step MIBK Process |
2019-02 | Methaforming |
2019-01 | Small Scale Anhydrous Hydrochloric Acid |
2018-15 | Flare Systems |
2018-14 | Acrylic Acid by BASF Technology |
2018-13 | Methyl Methacrylate (MMA) Production by BASF Process |
2018-12 | Sulfuric Acid from Sulfur - Updates on Contact Process |
2018-11 | Chevron Lummus Global LC-SLURRY Technology for VR Upgrade |
2018-10 | Dual Methane Expander Liquefaction for LNG Production (with Promax Simulation) |
2018-09 | Hydrogen Chloride (HCl) Recycle to Chlorine Using ODC Electrolysis Technology |
2018-08 | Styrene by Total Fina/Badger Process |
2018-07 | UOP’s Two-Stage Tatoray™ Process |
2018-06 | Crude Oil to Chemicals and Oxidative Coupling of Methane: Potential for Synergy? |
2018-05 | Methyl Methacrylate (MMA) Production by Evonik’s LiMA Process |
2018-04 | Crude Oil Vacuum Distillation |
2018-03 | Crude Oil Atmospheric Distillation |
2018-02 | Condensate Splitting |
2018-01 | Acetic Acid by Chiyoda CT-ACETICA™ Process |
2017-15 | Estimation of Project Cost beyond EPC Construction Costs |
2017-14 | Isoprene by Isopentane Dehydrogenation |
2017-13 | TDI (Toluene Diisocyanate) Process |
2017-12 | Accounting for Carbon Emission Cost in Chemical Production Economics |
2017-11 | SBR Process Summary |
2017-10 | Styrene by CB&I/UOP SMART Technology |
2017-09 | Styrene by CB&I/UOP Classic Technology |
2017-08 | Melamine by Golden Elephant Process |
2017-07 | Isoprene Process Summary |
2017-06 | Diphenyl Carbonate by Asahi Kasei Process |
2017-05 | Bimodal HDPE production by a gas-phase process similar to LyondellBasell’s Hyperzone Process |
2017-04 | Syngas Production for Ammonia from Coal |
2017-03 | Syngas Production for Ammonia from Natural Gas |
2017-02 | Ammonia Production by Haldor Topsøe Advanced Process |
2017-01 | CNPC (China National Petroleum Corporation) Millionton PTA Process |
2016-15 | Nitric Acid KBR Weatherly Single-Pressure Process |
2016-14 | Ammonia Production by Haldor Topsøe Conventional Process |
2016-13 | MDI Process Update |
2016-12 | Chlor-Alkali Process Summary |
2016-11 | Propylene Process Summary |
2016-10 | Acrylic Acid Process Summary |
2016-09 | Nitric Acid KBR Weatherly Dual-Pressure Process |
2016-08 | Chemical Value Chain Production Economics |
2016-07 | Air Separation Process Update |
2016-06 | Pygas C5 Separation Processes |
2016-05 | Process Summary: Natural Gas Liquids Separation and Recovery |
2016-04 | ExxonMobil Butyl Rubber Process |
2016-03 | LNG Process Summary |
2016-02 | Toluene Methylation Process by GT-TolAlkSM Technology |
2016-01 | Carbon monoxide production from syngas via cryogenic partial condensation process |
2015-15 | LLDPE Process Summary |
2015-14 | Acrylonitrile Process Summary |
2015-13 | Small-Scale Floating LNG |
2015-12 | BP’s PX Crystallization Process Offered by CB&I Lummus |
2015-11 | BP New Generation Process for Polymer-Grade Terephthalic Acid Production |
2015-10 | Hydrogen Process Summary |
2015-09 | Ethylene Process Summary |
2015-08 | Polyvinyl Chloride by JNC Suspension Polymerization Process |
2015-07 | Hydrogen Cyanide by the Andrussow and BMA Processes |
2015-06 | Polyamide (Nylon) 6 and 66 Process Summary |
2015-05 | Cellulose Acetate Flake |
2015-04 | Isoprene Production via Kuraray One-Step Isoprene and Formaldehyde Process |
2015-03 | Hydrogen Balancing in a Gas-to-Liquids (GTL) Plant |
2015-02 | Bayer-ThyssenKrupp ODC (Oxygen Depolarized Cathode) Chlor-Alkali Technology |
2015-01 | Acid Gas Removal from Natural Gas |
2014-15 | Sugar Production via Corn Wet Milling |
2014-14 | Polybutadiene Production by Lithium Catalyst |
2014-13 | On Purpose Octene-1 by Dow's Butadiene Telomerization Process |
2014-12 | Octene-1 by Sasol Heptene-1 Hydroformylation Technology |
2014-11 | Monoethylene Glycol (MEG) Process Summary |
2014-10 | Acetic Acid from Syngas via the BP SaaBre Process |
2014-09 | Polybutadiene Production by Neodymium Catalyst |
2014-08 | Ethylbenzene by Badger EBMaxSM Liquid Phase Alkylation Process |
2014-07 | Oxidative Coupling of Methane to Ethylene by Siluria Process |
2014-06 | Methanol Process Summary |
2014-05 | Methyl Methacrylate (MMA) Process Summary |
2014-04 | para-Dichlorobenzene |
2014-03 | Polypropylene Process Summary |
2014-02 | Exxon Isodecyl Alcohol from Nonenes |
2014-01 | Syngas via MIDREX® SynRG™Reformer |
2013-15 | Hydrogen Peroxide |
2013-14 | Liquid-Phase Alkylation of Dilute Ethylene to Ethylbenzene by Lummus Process |
2013-13 | Update of Offsite Costs |
2013-12 | LDPE Process Summary |
2013-11 | Phenol and Cumene Process Summary |
2013-10 | Adipic Acid from Free Fatty Acids via Verdezyne Fermentation |
2013-09 | Coal-Based MEG Production by Ube Process |
2013-08 | Coal-Based MEG Production by Sinopec SRIPT Process |
2013-07 | Acetic Acid, Update of the BP Cativa Process |
2013-06 | High-Purity Isobutylene from t-Butanol by LyondellBasell Process |
2013-05 | Propylene Production via the Ethylene Dimerization and OCT Technology |
2013-04 | Davy Methanation Process Technology Integrated with Coal to Substitute Natural Gas |
2013-03 | Cerenol™—DuPont Polyether Glycol Made from 1,3-Propanediol (PDO |
2013-02 | NGL Recovery by Low Pressure Drop Refrigeration Process |
2013-01 | Acetic Acid, Update of the Celanese AO Plus Process |
2012-15 | Tipping Point for Power Generation: New NGCC vs Legacy Coal |
2012-14 | Light Naphtha Isomerization by JSC SIE Neftehim IsoMalk-2™ Process |
2012-13 | Polyamide (Nylon) 6 |
2012-12 | Glacial Acrylic Acid via Sulzer Falling Film Crystallization |
2012-11 | 1-Hexene Production by Axens AlphaHexol™ Process |
2012-10 | Ethylene Glycol Production from Coal-Based Synthesis Gas |
2012-09 | Polypropylene by INEOS Technologies Innovene™ PP Process |
2012-08 | PEP Cost Index Methodology Update |
2012-07 | Methyl Tertiary Butyl Ether Production from Steam Cracker C4 Stream |
2012-06 | High-Purity Isobutylene Production by MTBE Cracking |
2012-05 | Propylene Production by the JGC/MCC DTP™ Process |
2012-04 | Process Economics of Coal-Based Olefins Production in China |
2012-03 | Coal Gasification Technology in China |
2012-02 | Acetic Acid, Update of Oxidation Routes |
2012-01 | Acetic Acid, Update of the Chiyoda Acetica™ Routes |
2011-15 | Polypropylene by LyondellBasell's Spheripol Process |
2011-14 | Methanol Production via Toyo Process |
2011-13 | Advanced Technology Natural Gas Combined Cycle |
2011-12 | Continuous SAP Production via Double Kneader Reactor |
2011-11 | Enhanced Oil Recovery (EOR) Using CO2 |
2011-10 | Ethanol Production by Celanese Acetyl Technology |
2011-09 | Bio-Based Isoprene |
2011-08 | Polycarbonate via Dow Phosgenation Process |
2011-07 | Updating the PEP Cost Index |
2011-06 | Rebalancing the PEP Cost Index |
2011-05 | On-Purpose Butadiene Production |
2011-04 | Propylene Production via Metathesis of Ethylene and Butenes |
2011-03 | Closed Loop Processing in Polysilicon Production |
2011-02 | Carbonate Production by an Alkyltin Alkoxide Catalyst |
2011-01 | Chloroacetic Acid by Direct Chlorination |
2010-15 | CO2 Recovery by Fluor's CO2LDSep? Process |
2010-14 | Bio-Based Succinic Acid |
2010-13 | Reverse Osmosis for Seawater Desalination |
2010-12 | Ethylene Oxide Production by Nippon Shokubai Process |
2010-11 | Thermal Visbreaking of Vacuum Residue |
2010-10 | Lummus/CB&I Hexene-1 from C4 Process (Comonomer Production Technology) |
2010-09 | Propylene Production from Propane by the Catofin Process |
2010-08 | Electrostatic Desalting of Opportunity Crude Oils |
2010-07 | ABS Resin Production |
2010-6 | Catalytic Steam Gasification |
2010-5 | Lithium for Electric Vehicles—a Technology and Economic Assessment |
2010-4 | Fischer-Tropsch Oxygenated Products |
2010-3 | Ultra High Supercritical Pulverized Coal |
2010-2 | ExxonMobil's Ultra High Viscosity Index Poly Alpha Olefin Lubricant Blend Stock |
2010-1 | Polyvinyl Alcohol Production |
2009-15 | Liquid Phase Methanol |
2009-14 | C3-C4 Oligomerization for Gasoline |
2009-13 | Natural Gas Recovery from Methane Hydrates via Depressurization |
2009-12 | Carbon Dioxide Compression |
2009-11 | Ammonia from Natural Gas by the KBR Purifier Process |
2009-10 | Ammonia from Natural Gas by the Lurgi-Casale Megammonia Process |
2009-9 | Biodiesel from Algae |
2009-8 | Polyethylene Production By A Solution Process Using Loop Polymerization Reactors |
2009-7 | Cyclic Olefin Copolymers (COC) |
2009-6 | Polyphenylene Sulfide (PPS) |
2009-5 | Biodiesel via the Heterogeneous Catalysis Catilin Process |
2009-4 | Propylene Oxide by the BASF-Dow HPPO Process |
2009-3 | Integrated Production of Toluene Diisocyanate from Toluene |
2009-2 | Asahi Kasei Diphenyl Carbonate Process Involving the Production and Use of Dibutyl Carbonate |
2009-1 | HF Alkylation Process Incorporating ExxonMobil Concepts Disclosed In U.S. Patent Applications Issued In June/July 2008 |
2008-15 | Process Water Management and Treatment |
2008-14 | Processing Acidic Crude Oils |
2008-13 | Five-Year Outlook for Mergers and Acquisitions in the Chemical Industry |
2008-12 | Will the Real Carbon Footprint Please Stand Up? |
2008-11 | Carbon Capture Via Oxycombustion |
2008-10 | INEOS Slurry Loop Polyethylene Process |
2008-9 | Fuel and Petrochemical Price Relationships in High Crude Oil Price Environment |
2008-8 | Natural Gas Combined-Cycle Power Plant |
2008-7 | Pulverized Coal Fired Power Plant |
2008-6 | Advanced Pyrolysis Gasoline Upgrading |
2008-5 | Olefinic Block Copolymer Production Using Dow Chemical's Chain Shuttling Process |
2008-4 | Soil Remediation |
2008-3 | Chemical Plant Security Regulations and Associated Costs |
2008-2 | Acid Gas Removal |
2008-1 | Toluene Diisocyanate from Toluene Diamine by Bayer Gas Phase Phosgenation Preliminary Evaluation |
2007-15 | Estimating the Carbon Footprint of the Worldwide Chemical Industry |
2007-14 | Reach Briefing: A Review of EU Chemicals' Licensing |
2007-13 | Succinic Acid from Maleic Anhydride |
2007-12 | Passenger Car Motor Oil: Development and Future Trends |
2007-11 | Feedstock Price Issues for Bio-Derived Materials |
2007-10 | Ammonia from Natural Gas by KBR "KAAP" Process |
2007-9 | Ethyl Acetate by Direct Addition of Ethylene and Acetic Acid |
2007-8 | IsoTherming™ Hydrotreating Process for Ultra Low Sulfur Diesel Fuel |
2007-7 | Comparison of Polyethylene Processes |
2007-6 | Speculative Incremental Design Improvement for Caprolactam Via Liquid Phase Ammoximation And Vapor Phase Rearrangement |
2007-5 | Sellers Beware: Voluntary Carbon Offsets, Carbon Labels and the Chemical Industry |
2007-4 | Epichlorohydrin from Glycerin |
2007-3 | Hydrogen: a Technical Review |
2007-2 | Fischer-Tropsch Reactor System Loop |
2007-1 | Biobutanol |
2006-15 | p-Xylene by Combined Crystallization/Adsorption Process |
2006-14 | Production of Toluene Diisocyanate from Toluene Diamine and Dimethyl Carbonate |
2006-13 | Polyethylene by Basells Hostalen Process |
2006-12 | Trends in Coating Resins Made by Emulsion Polymerization |
2006-11 | Production of Propylene from Fluid Catalytic Cracker Naphtha Streams |
2006-10 | Polyethylene By Basell's Spherilene Process |
2006-9 | North American Ethylene Feedstocks |
2006-8 | Major Trends Affecting the Chemical Industry |
2006-7 | Remote Gas Strategies Onsite Storage of Natural Gas Hydrates |
2006-6 | Short Contact Time Catalytic Cracking |
2006-5 | Iron Catalysis for Fischer-Tropsch Fuels Production |
2006-4 | Sucralose Production Via the Sucrose-6-Acetate Route |
2006-3 | Biodiesel and Global Warmer Emissions: Is The Biofuel For Fossil Fuel Trade-Off Actually A Payoff? |
2006-2 | Price, Labor Cost and Labor Productivity Indices for PEP Cost Index China |
2006-1 | PEP Cost Index—China East Coast |
2005-15 | Recovery Of Styrene From Pyrolysis Gasoline |
2005-14 | Polyethylene by Chevron-Phillips Slurry Loop Process |
2005-13 | Vinylidene Chloride Copolymers by Suspension and Emulsion Polymerization |
2005-12 | Current Development of Technology for the Production of Bisphenol A |
2005-11 | Advances In Naphtha Steam Cracking |
2005-10 | Estimating CO2 from Production-Cost Data: What and Why? |
2005-09 | Diphenyl Carbonate from Phenol via Diphenyl Oxalates with Improved Ube Technology |
2005-08 | Production of Ethylene-Based Elastomers by a Solution Process with Exxpol™ Metallocene Catalyst |
2005-07 | Biodiesel via Axens Heterogeneous Catalysis Esterfip-H Process |
2005-06 | Polyethylene By Borealis' Borstar Process |
2005-05 | Lyondell Direct-Oxidation Propylene Oxide Technology |
2005-04 | Ethanol From Switchgrass |
2005-03 | LNG Regasification |
2005-02 | Remote Gas Strategies Commercial Status of GTL |
2005-01 | Remote Gas Strategies – Industry Status of Remote Gas Production |
2004-15 | Superflex™ Process For Light Olefins |
2004-14 | An Integrated Process for TDI via TDA and Dimethylcarbonate |
2004-13 | Online Trading for Chemicals: Status Outlook |
2004-12 | Formic Acid by Kemira Process |
2004-11 | Mega Ammonia |
2004-10 | Ethanol from Straw |
2004-9 | Hexafluoropropylene Oxide Production by a Biphasic Process |
2004-8 | Direct Methanol Fuel Cell Technology Update |
2004-7 | Update of Caprolactam via Liquid Phase Ammoximation and Vapor Phase Rearrangement |
2004-6 | Physical Property Issues In Simulation: Liquid-Liquid Equilibria |
2004-5 | Experience Curve Impact on Capital Cost |
2004-4 | Cyclohexanone from Cyclohexane by Bionic Oxidation with Sinopec Technology |
2004-3 | 1,3-Propanediol from Ethylene Oxide via A 3-Hydroxyester |
2004-2 | MDI |
2004-1 | Physical Property Issues In Simulation: Vapor-Liquid Equilibria |
2003-15 | Base Load LNG By Cascade Refrigeration |
2003-14 | Developments in the External Value of Intellectual Property in the Chemical Industry |
2003-13 | Competitive Intelligence from Environmental Regulatory Information |
2003-12 | NExOCTANE™ Isooctane Process |
2003-11 | Ethanol from Bagasse |
2003-10 | New One-Step Oxo Process for 1,3-Propanediol |
2003-9 | "Jumbo" Dimethyl Ether Production Process via Toyo Technology |
2003-8 | Salicylic Acid |
2003-7 | Anionic Polystyrene; A New Generation |
2003-6 | Online Process Economics Optimizers |
2003-5 | Process for Production of Ethylene Vinyl Alcohol Copolymer |
2003-4 | Economics Forces Restructuring The Chemical Industry |
2003-3 | Monetizing Carbon Dioxide Into Synthesis Gas |
2003-2 | Soil Remediation: Air Sparging and Thermal Desorption |
2003-1 | Carbon Nanotubes In Japan |
2002-15 | Divided-Wall Distillation Technology |
2002-14 | Ethylbenzene From Ethylene And Benzene via Zeolite Catalyzed Process (Sept 2003) |
2002-13 | Advances in Solid State Hydrogen Storage Technologies |
2002-12 | Butadiene Extraction by BASF New NMP Process |
2002-11 | Acrylate-Based Weakly Acidic Cationic Ion Exchange Resins |
2002-10 | Diphenyl Carbonate from Ethylene Carbonate via Dimethyl Carbonate by Asahi Technology |
2002-9 | Production of Perfluorodioxole and Amorphous Fluoropolymer |
2002-8 | Polyhydroxyalkanoates from Organic Wastes |
2002-7 | Liquefied Natural Gas By The Mixed Fluid Cascade Process |
2002-6 | Update on Phenol From Benzene via Single-Step Hydroxylation |
2002-5 | Biodiesel Production Via Axens' Heterogeneous Catalysis Process |
2002-4 | Polyvinylidene Fluoride (PVDF) By A Supercritical CO2 Process |
2002-3 | Hydrogen Energy and Its Future Applications |
2002-2 | Hydrogen Energy and Its Present Applications |
2002-1 | Security Vulnerability Assessments for the Chemical Industry |
2001-15 | Technologies for Lower-Carbon Power Generation |
2001-14 | “Jumbo” Methanol Production Process via Toyo Technology |
2001-13 | White Mineral Oils by the BASF Process |
2001-12 | S Zorb Diesel Sulfur Removal Technology |
2001-11 | UOP Methanol to Olefins |
2001-10 | The Olefins Industry in the New EU Member States: Profile And Competitive Assessment |
2001-9 | Acrylic Acid Production by Propane Oxidation |
2001-8 | Hydrogen Outlet For Methanol |
2001-7 | Single-Step Hydrogen Gas Synthesis |
2001-6 | Ethylene Carbonate From Ethylene Oxide |
2001-5 | Barge Mounted Methanol Production |
2001-4 | Petroleum Coke Gasification |
2001-3 | Commercial Production of Calcium Formate |
2001-2 | Physical Property Issues In Simulation: Gas Solubility |
2001-1 | Six Sigma In Chemicals: More Than A Fad, But Not For Everyone |
2000-15 | Future Process Technology Developments |
2000-14 | Reaction Injection Molded Automotive Body Panels |
2000-13 | Fischer-Tropsch Synthesis Via Reactive Distillation |
2000-12 | Fischer-Tropsch Synthesis Via Low Boiling Solvent Slurry Phase |
2000-11 | Barge Mounted GTL Production |
2000-10 | Impact Of The EU's 'Reach' Chemicals Policy |
2000-9 | Impact Of Biodiesel Growth: A Strategic Assessment |
2000-8 | Demography And Demand: Growth Scenarios For 2040 |
2000-7 | Ethanol From Corn Stover |
2000-6 | Regeneration Of Sulfuric Acid From Sulfate Salts Via Hydrogen Peroxide |
2000-5 | Acrolein Production From Propane |
2000-4 | Carbon Trading In The Chemical Industry: A Look At Coming CO2 Emission Limits |
2000-3 | Hydroquinone From Phenol Using Ti-Si Catalyst |
2000-2 | Maleic Anhydride from n-Butane by the Boc/Mitsubishi Technology |
2000-1 | The Aftertreatment Market For Particle And Nox Emissions In Diesel Road Transport |
99-15 | Acetaminophen |
99-14 | Methyl Methacrylate By Lucite's Alpha Technology |
99-13 | a-Tocopherol (Vitamin E) Acetate Production From Citral Via Isophytol |
99-12 | The Economics of Recycling PET in Europe |
99-11 | Responsible Investing and the Chemical Industry |
99-10 | Ascorbic Acid |
99-9 | Integrated Hydrogen Peroxide And Propylene Oxide Technology |
99-8 | Fluidized-Bed Technology For Vinyl Acetate Monomer |
99-7 | Lipase Production Using Pseudomonas Alcaligenes |
99-6 | alpha-Amylase Production Using Bacillus Species |
99-5 | Auto Dismantling |
99-4 | Catalytic Cracking of Light Cracked Naphtha to Produce Propylene |
99-3 | Linear Alkylbenzene By Heterogeneous Catalysis (Update) |
99-2 | ENI Slurry Hydroprocessing Technology For Diesel Fuel |
99-1 | Basell's Multizone Circulating Reactor (MZCR) Process |
98-15 | Caprolactam Via Gas Phase Beckmann Rearrangement |
98-14 | The Alkylene™ Process- Solid Acid Alkylation System |
98-13 | Methanol To Propylene By The Lurgi MTP Process |
98-12 | Production of Propylene from C4 |
98-11 | Production of Phenol From Benzene and Hydrogen Peroxide |
98-10 | Diphenyl Carbonate from Phenol via Diphenyl Oxalates with UBE Technology |
98-09 | Aromatics Saturation of Diesel via Two-Stage Hydrotreating |
98-08 | Production of Isobutylbenzene via The Alkylation of Toluene With Propylene |
98-07 | Hydrocracking Technology for Middle Distillate |
98-06 | Ethanol via Hydration of Ethylene |
98-05 | Chloralkali by Electrolytic Cells With Improved Technology |
98-04 | Production of Pyridine and Beta-Picoline |
98-03 | Propylene Oxide Via Direct Oxidation Of Propylene |
98-02 | Acrylonitrile Via The Ammoxidation Of Propane |
98-01 | Ethylenediamine Via The Amination of Monoethanolamine |
97-15 | Styrene Via Benzene And Ethane |
97-14 | Phytoremediation |
97-13 | Aromatics Complex Economics |
97-12 | Acetic Acid by the Chiyoda/UOP Acetica™ Process |
97-11 | Liquid Hydrocarbons from Natural Gas by Exxon's AGC 21 Process |
97-10 | Glyphosate |
97-9 | L-Lysine by Fermentation with Recovery by Ion-Exchange |
97-8 | Lysine-Sulfate Production by Fermentation with Recovery by Spray Drying |
97-7 | Deep Catalytic Cracking |
97-6 | One Step Phenol from Benzene by the AlphOx Process |
97-5 | The Changing Structure of the Chemical Industry |
97-4 | Supply Chain Management Practices Benchmarks in the Bulk Polymer Industry |
97-3 | Dow's Ethane Based Process for Ethylbenzene |
97-2 | Eastman Syngas-based Route for Methyl Methacrylate |
97-1 | PET Bottle Resin by Pyromellitic Dianhydride Process |
96-12 | Combinatorial Chemistry |
96-11 | Ethylene Outlook |
96-10 | Purified Terephthalic Acid From p-Xylene by Hydrolysis of Dimethyl Terephthalate |
96-9 | Aliphatic Polyketones from Carbon Monoxide and Olefins by the Shell Liquid-Phase Polymerization Process |
96-8 | Natural Gas to Liquid Hydrocarbons Technology Based on the Syntroleum Process |
96-7 | Lactic Acid By Fermentation |
96-6 | ICI's Polymethyl Methacrylate Tertiary Recycling Technology |
96-5 | Styrene-Butadiene Rubber |
96-4 | Hexamethylenediamine And Caprolactam From Adiponitrile by Partial Hydrogenation and Cyclization of Aminocapronitrile |
96-3 | Titanium Dioxide Technology Trends and Regional Production Cost Benchmarking |
96-2 | Formaldehyde From Methanol |
96-1 | Outlook For Propylene Availability in Asia-Pacific |
95-1-9 | Asahi Methacrolein Oxidative-Esterification Technology |
95-1-8 | 1-Hexene From Ethylene By The Phillips Trimerization Technology |
95-1-7 | Chlorine From Hydrogen Chloride by The Du Pont Electrolytic Process |
95-1-6 | Acrylonitrile Via High-Conversion Propane Ammoxidation |
95-1-5 | Norbornene from Dicyclopentadiene and Ethylene |
95-1-4R | Butanediol from n-Butane via Maleic Acid Hydrogenation |
95-1-3 | Bisphenol A Via Sinopec-Lummus Technology |
95-1-2 | Caprolactam From Butadiene |
95-1-12 | Intermaterial Substitution Simulation |
95-1-11 | Mitsui's Acetone Recycling Technology in Phenol Manufacturing |
95-1-10 | Butanediol From Butadiene Via Epoxybutene |
95-1-1 | Tert-Amyl Methyl Ether by the Nextame Process |
94-3-3 | Petrochemical Industry Cyclicality and Outlook |
94-3-2 | Polytetramethylene Glycol from Tetrahydrofuran via a Diacetate Intermediate |
94-3-1 | Natural Gas Pricing Mechanisms |
94-2-4 | Styrene from Butadiene via 4-Vinylcyclohexene by the Dow Process |
94-2-3 | Update on Maleic Anhydride From N-Butane Via Fluidized Bed Reactor with an Organic Solvent Absorber |
94-2-2 | One-Step Oxo Process For 1,3-Propanediol |
94-2-1 | A Nontower Process for High Bulk Density Detergent Powders |
94-1-4 | Dendrimer Polymer from Diaminobutane and Acrylonitrile |
94-1-3 | Chlorine from Hydrogen Chloride by the Carrier Catalyst Process |
94-1-2 | Lucky Nonphosgenation Process: MDI and PMPPI by Carbonylation |
94-1-1 | 1,4-Butanediol from Maleic Anhydride via Dimethyl Maleate |
93-3-4 | Xylenes Isomerization |
93-3-3 | Haldor Topsoe Alkylation Process |
93-3-2 | Coproduction of Ethylene and Vinyl Chloride by USC/Occidental Chemical Process |
93-3-1 | Styrene from Dilute Ethylene |
93-2-4 | Polyethernitrile (PENI) Heat Resistant Polymer From 2,6-Dichlorobenzonitrile and Resorcinol |
93-2-3 | Maleic Anhydride From n-butane; Fixed Bed Reactor; Organic Solvent Recovery |
93-2-2 | Methanol Profitability: History and Outlook |
93-2-1 | Natural Detergent Alcohols by a Vapor-Phase Ester Hydrogenation Process |
93-1-4 | Ammonia from Natural Gas |
93-1-3 | The Economic Viability of Using Membranes in Chemical Processes Involving Hydrogen Transport |
93-1-2 | Quick Estimates of Production Costs |
93-1-1 | Pyromellitic Dianhydride |
92-3-4 | Cumene by a Catalytic Distillation Process |
92-3-3 | Methyl Chloride Manufacture |
92-3-2 | Purification of Wet Process Phosphoric Acid by a Solvent Extraction Process |
92-3-1 | Isobutene from Isobutane by Snamprogetti/Yarsintez Dehydrogenation Process |
92-2-4 | Dimethyl-2,6-naphthalenedicarboxylate from o-Xylene by Amoco Technology |
92-2-3 | N-(1,3-Dimethylbutl)-Ni-Phenyl-P-Phenylenediamine Via a Novel 4-Nitrodiphenylamine AND 4-Nitrosodiphenylamine |
92-2-2 | C4 Olefins Utilization |
92-2-1 | Melamine By the Melamine Chemicals M-II Process |
92-1-4 | Degradable High Molecular Weight Polymers and Copolymers from Lactic Acid |
92-1-3 | Mobil Diisopropyl Ether Process |
92-1-2 | Microbial Insecticides: BacillusThuringiensis |
92-1-1 | Coproduction of Dimethyl Carbonate and Ethylene Glycol by Transesterification |
91-3-4 | Styrene from Ethylbenzene Using Membrane Reactors |
91-3-3 | Acrylamide by Enzymatic Hydration of Acrylonitrile (third generation) |
91-3-2 | Methanol from Natural Gas by ICI's LCM Process |
91-3-1 | Polycarbonates From Bisphenol Compounds Via Cyclic Oligomers By GE Plastics Technlogy |
91-2-4 | Isobutene Production by Isomerization Of N-Butene |
91-2-3 | Polypropylene By a Vertical Stirred-Bed Process (BASF Technology) |
91-2-2 | Carbon Monoxide-Ethylene Copolymers |
91-2-1 | Dihydroxybenzenes From Phenol By Vapor-Phase Hydroxolation |
91-1-4 | Removal of Mercury From Ethylene Plant Feedstocks and Cracked Gas Streams |
91-1-3 | Catalytica Acetaldehyde Process |
91-1-2 | DIMETHYL CARBONATE BY VAPOR-PHASE OXIDATIVE CARBONYLATION |
91-1-1 | Isobutane Dehydrogenation by Thermal Cracking |
90-3-4 | Low Pressure Oxo Process with Liquid Recycle |
90-3-3 | Syngas by the Partial Oxidation of Natural Gas |
90-3-2 | Isophorone Diisocyanate by a Nonphosgenation Process |
90-3-1 | Polyethylene Terephthalate Recycle by Depolymerization |
90-2-4 | Linear Alkylbenzene by Heterogeneous Catalysis |
90-2-3 | The SDS Polystyrene Process |
90-2-2 | Urea by UTI's Heat Recycle Process |
90-2-1 | Tetrahydrofuran from Maleic Acid (Du Pont Process) |
90-1-4 | Sucralose - A High Intensity, Noncaloric Sweetener |
90-1-3 | Acetonitrile Recovery in Acrylonitrile Manufacture |
90-1-2 | Hydrogen Peroxide by the ARCO Process |
89-3-3 | Options for Procuring Oxygen |
89-3-2R | 95% Nitrogen from Air by Vacuum Pressure Swing Adsorption |
90-1-1 | Propylene Oxide by the Olin Process |
89-3-4 | The Nitto Chemical Methylamines Process |
89-3-1 | Methanol from Natural Gas by the Lurgi Combined Reformining Process |
89-2-4 | Nonmanufacturing Overhead Spending in the Chemicals Industry |
89-2-3 | Acetal Copolymers by an Asahi Chemical Process |
89-2-2 | Nylon 12,12 Resin from Butadiene by Du Pont Technology |
89-2-1 | Review of Trends in the PEP Plant Construction Cost Indices and Location Factors |
89-1-4 | Xylenes Isomerization |
89-1-3 | Ammonia From Natural Gas by ICI "LCA" Process |
89-1-2 | Petrochemicals Price Behavior |
89-1-1 | New Methyl Methacrylate Process Via Acetone Cyanohydrin |
88-3-4 | Acetic Acid by Low Pressure Carbonylation of Methanol with a Supported Rhodium Catalyst |
88-3-3 | Vinyl Chloride from EDC Pyrolysis by Tosoh Technology |
88-3-2 | ETBE Versus MTBE |
88-3-1 | Applications and Opportunities in Ceramic Coatings |
88-2-4 | Acrylonitrile from Propane by New BP/SOHIO Patented Process |
88-2-3 | Methanol from Natural Gas by BNL Low Temperature Catalyzed Synthesis |
88-2-2 | UOP Styrene Process |
88-2-1 | Recovery of Sulfur and Hydrogen from Hydrogen Sulfide by Idemitsu's Hybrid Process |
88-1-4 | Isobutylene, High-Purity, by Phenol Alkylation |
88-1-3 | Nylon 4,6 |
88-1-2 | Alkylbenzene, Linear, Using HF Catalyst |
88-1-1 | Hydrogen Sulfide Removal/Unisulf Process |
87-3-4 | Methyl Methacrylate from Ethylene |
87-3-3 | Cyclohexanol from Benzene by Asahi Chemical Process |
87-3-2 | Caprolactam Process (Modified) by Montedipe Technology |
87-3-1 | MTBE from Butadiene Rich Mixed C4s |
87-2-4 | Methyl Formate by Dehydrogenation of Methanol |
87-2-3 | Methyl Ethyl Ketone by Oxidation of n-Butenes |
87-2-2 | Piperidine from Furfural by Mitsubishi Technology |
87-2-1 | Hydrogen Peroxide from H2 and Oxygen, DuPont |
87-1-4 | Dimethyl Carbonate from Methanol |
87-1-3 | Naphtha Etherification |
87-1-2 | Ethylene from Ethane by Oxydehydrogenation |
87-1-1 | Chlorine from Hydrogen Chloride by Oxidation |
86-3-4 | m-Aminophenol from Resorcinol by Amination |
86-3-3 | Methanol from Natural Gas with Entrained Catalyst System |
86-3-2 | Poly(Proypylene Carbonates) |
86-3-1 | 1,4-Butanediol from Allyl Alcohol |
86-2-4 | Polyphosphazenes |
86-2-3 | 2,6-Xylenol and o-Cresol from Phenol |
86-2-2 | Sulfuric Acid from Phosphogypsum, DMC-FIPR Process |
86-2-1 | Allyl Alcohol from Propylene, Showa Denko |
86-1-4 | Isononyl Alcohols by Hydroformylation |
86-1-3 | Polymers, Specialty, R&D Trends |
86-1-2 | p-Xylene Separation, CCCC Process |
86-1-1 | Nitrogen from Air by Pressure Swing Adsorption |
85-3-4 | Polyvinyl Chloride by a Continuous Suspension Process |
85-3-3 | Aromatics from LPG |
85-3-2 | Hydroquinone from Phenol, Zeolite-Catalyzed |
85-3-1 | Tetramethylene Diamine for Nylon 4,6 |
85-2-4 | Ethanol from Natural Gas |
85-2-3 | Molecular Sieve Drying of 190 Proof Ethanol |
85-2-2 | Ethylene by the Oxidative Dehydrogenation of Ethane |
85-2-1 | Propylene from Ethylene by Disproportionation |
85-1-4 | Dow/Union Carbide Process for Mixed Alcohols from Syngas |
85-1-3 | Fiber S, a Novel Polyamide Blend with the Feel of Cotton |
85-1-2 | Acrylic Acid Based Superabsorbent Polymer |
85-1-1 | Trimellitic Anhydride From m-Xylene |
84-3-4 | C5-C6 Isomerization |
84-3-3 | Dimerization of Ethylene to Butene-1 |
84-3-2 | Enriched Air by a Membrane Process |
84-3-1 | A Process for Making Polyethylene Polyamines |
84-2-4 | Acrylamide by Enzymatic Hydration of Acrylonitrile |
84-2-3 | Hydrogen Peroxide by Cathodic Reduction of Oxygen |
84-2-2 | Secondary Butyl Alcohol via Direct Hydration |
84-2-1 | Lurgi Isothermal Styrene Process |
84-1-4 | Cumene by Combined Reaction/Distillation |
84-1-3 | Hydrogen by Methanol Decomposition |
84-1-2 | Adipic Acid via Butadiene Carbonylation |
84-1-1 | Carbon Black by the Oil-Furnace Process, with Oxygen as the Oxidant Gas |
83-3-4 | Direct Process for Ethylene Glycol from Syngas |
83-3-3 | Ethylene Glycol from Formaldehyde via Glycolaldehyde |
83-3-2 | Chlorinated Polyethylene |
83-3-1 | Tetrahydrofuran and 1,4-Butanediol from Acetylene and Formaldehyde |
83-2-4 | Tetramethylxylylene Diisocyanate by American Cyanamid Technology |
83-2-3 | Group-Transfer Polymerization Applications |
83-2-2 | New Nonphosgenation Process for MDI by Asahi Chemical Industry |
83-2-1 | Ammonia from ICI's Low Pressure "AMV" Process |
83-1-4 | Recovery of Hydrogen Chloride |
83-1-3 | Sodium Nitrilotriacetate |
83-1-2 | p-Cresol from p-Toluenesulfonic Acid |
83-1-1 | para-Xylene from Toluene and Methanol |
82-3-3 | Concentrated Nitric Acid (Espindesa Technology) |
82-3-2 | Urea Granulation by the Fluid Bed Process (NSM Technology) |
82-3-1 | Urea by The Isobaric Double Recycle Process |
82-2-3 | Anthraquinone from Toluene |
82-2-2 | 1,4-Butanediol and Tetrahydrofuran from Butadiene |
82-2-1 | Ethylene from Methane-Chlorine Reaction System |
82-1-3 | Ethylene from Hydrocracked Vacuum Gas Oil Produced by the Linde AG Process |
82-1-2 | Ethylene from Hydrocracked Vacuum Gas Oil Produced by the Unicracking/FPP |
82-1-1 | Bisphenol A from Phenol and Acetone With an Ion Exchange Resin Catalyst—Union Carbide Technology |
81-3-3 | Synthetic Zeolites in Commercial Applicaitons |
81-3-2 | Styrene from Toluene |
81-3-1 | Recent Trends in the PEP Plant Construction Cost Indices and Location |
81-2-3 | Gasoline from Natural Gas via Methanol/Mobil |
81-2-2 | Polypropylene, El Paso Process Using Mitsui/Montedison Catalyst |
81-2-1 | Ethylene Glycol via Oxalate Esters |
81-1-3 | Caprolactam vis SNIA Viscosa Process |
81-1-2 | Methyl Isobutyl Ketone by Direct Condensation of Acetone |
81-1-1 | Caustic Soda from Trona Caustization Process |
80-3-3 | 1,4-Butanediol by Electrochemical Synthesis |
80-3-2 | Ethylene from Synthesis Gas |
80-3-1 | Chemicals via Butylene Oxides by Hydroperoxide Process |
80-2-3 | Propylene from Propane by Catalytic Dehydrogenation |
80-2-2 | Phenol from Toluene, Coproduct Formaldehyde |
80-2-1 | Phenol from Ethylbenzene, Coproduct VA |
80-1-4 | PMPPI from Nitrobenzene by Carbonylation |
80-1-3 | Ethylene by Methanol Homologation |
80-1-2 | Recycle C4s for Ethylene Production |
80-1-1 | Supplementary LPG Feed for Naphtha Crackers |
79-3-4 | Ethylene from Ethanol |
79-3-3 | p-Methylstyrene |
79-3-2 | Ethylene from Methanol |
79-3-1 | Olefins, Light, from Ethylene |
79-2-4 | Methyl Methacrylate from Isobutylene |
79-2-3 | p-Xylene from Non-aromatics |
79-2-2 | Phosgene |
79-2-1 | Ethylene Glycol via Ethylene Carbonate |
79-1-4 | Methyl Methacrylate from Allyl Acetate |
79-1-3 | PMPPI and MDI from Nitrobenzene |
79-1-2 | MTBE from n-Butane |
79-1-1 | Polyethylene, High Density, Gas Phase Process |
78-3-4 | Acetic Acid, Low Pressure Carbonylation of Methanol |
78-3-3 | Butene-1 from MTBE Plant Raffinate |
78-3-2 | Isomerization of n-Butenes in MTBE Manufacture |
78-3-1 | Methyl Methacrylate from Ethylene |
78-2-4 | Methyl Methacrylate from t-Butanol |
78-2-3 | HMDA by Electrolytic Dimerization of Acrylonitrile |
78-2-2 | Anthraquinone from Naphthalene |
78-2-1 | Ethylene Glycol via Oxalate Esters |
78-1-4 | Synthesis Gas Costs |
78-1-3 | Methyl Tertiary-Butyl Ether |
78-1-2 | Nitrobenzene by Adiabatic Nitration |
78-1-1 | Ethylene from Crude Oil, UCC/Kureha/Chiyoda |
77-3-4 | Propylene Glycol |
77-3-3 | Ethylene from atmospheric Gas Oil |
77-3-2 | Vinyl Acetate, Carbonylation of Methyl Acetate |
77-3-1 | Polyethylene, Low Density, Union Carbide Process |
77-2-5 | Polymeric Polyisocyanates (PMPPI) or Polymeric MDI by Carbonylation Process |
77-2-4 | Terephthalic Acid (Medium Purity) from p-Xylene |
77-2-3 | Toluene Diisocyanate by Carbonylation Process via Urethane |
77-2-2 | Ethylene from Naphtha, Millisecond Cracking |
77-2-1 | Maleic Anhydride from Butene, Benzene, Butane |
77-1-4 | Styrene from Butadiene |
77-1-2 | Styrene Economics |
77-1-1 | Propylene Oxide from Propylene Glycol Monoacetate |
76-3-5 | Propylene Oxide by Perpropionic Acid Epoxidation |
76-3-4 | Hydrogen Cyanide from Methanol |
76-3-3 | Ethylene from Carbon Monoxide and Hydrogen |
76-3-2 | An Inorganic Process for Making Hydrogen Peroxide |
76-3-1 | Acetic Anhydride from Dimethyl Ether or Methyl Acetate |
76-2-4 | Phenol by Direct Oxidation of Benzene |
76-2-3 | Terephthalic Acid from Toluene via Dipotassium Terephthalate |
76-2-1 | Methyl Methacrylate from Isobutylene via Methacrylic Acid |
76-1-4 | Uranium Recovery from Wet Process Phosphoric Acid |
76-1-3 | Styrene from Toluene and Ethylene via Stilbene |
76-1-2 | Fluorocarbon Turbines |
76-1-1 | Methyl Tertiary-Butyl Ether |
75-3-4 | Chlorinated Polyvinyl Chloride |
75-3-3 | Acetic Acid from Carbon Monoxide and Hydrogen |
75-3-2 | Power Costs for Chemical Companies Operating in the Houston, Texas Area |
75-3-1 | Economics of Alternative Olefin Feedstocks |
75-2-4 | Ethylene Oxide Update |
75-2-3 | The PEP Construction Cost Index |
75-2-2 | Outlook for Ammonia Industry |
75-2-1 | Maleic Anhydride From Normal &s or Benzene |
75-1-5 | Ethylene By Hydrocracking |
75-1-4 | Plastic Bottles for Carbonated Beverages Polyester Versus Nitrile |
75-1-3 | Recovery of By-Product Maleic Anhydride in Phthalic Anhydride Plants |
75-1-2 | Closed Cycle Thermal Reactions Compared with Electrolysis for the Production of Hydrogen |
75-1-1 | Ion-Exchange Membrane Cells for Electrolysis of Sodium Chloride |
X-3-4 | Energy Demand, U.S. Chemical Industry |
X-3-3 | Ethylene Glycol via Glycol Esters |
X-3-2 | Hydrogen Cyanide |
X-3-1 | Maleic Anhydride from Butene or Benzene |
X-2-C | Ethane Recovery from Natural Gas |
X-2-A | Aromatics BTX, Value |
X-2-4 | Detergent Alcohols Outlook |
X-2-2 | Ethylene Glycol from Synthesis Gas |
X-1-5 | Vapor Recompression |
X-1-4 | Styrene-Aniline Cooproduction |
X-1-3 | Environmental Regulations |
X-1-2 | Polypropylene |
X-1-1 | Ethylene and Coproducts, Value |
IX-3-5 | Terephthalic Acid from p-Xylene, Description of Maruzen Process |
IX-3-4 | Toluene Steam Dealkylation |
IX-3-3 | Ethylene Glycol from Synthesis Gas |
IX-3-2 | Ethylene from Natural Gas |
IX-3-1 | Synthesis Gas from Natural Gas or Coal |
IX-2-5 | Formaldehyde from Natural Gas |
IX-2-4 | Ethylene Glycols, Direct Oxidation |
IX-2-3 | Hydroquinone Processes |
IX-2-2 | Aromatics Extraction |
IX-2-1 | Trimellitic Anhydride from Pseudocumene |
IX-1-6 | PolyvinylChloride, Vapor Phase Bulk Polymerization |
IX-1-5 | Aniline, Amination of Benzene |
IX-1-4 | Terephthalic Acid from p-Xylene through Terephthalonitrile |
IX-1-3 | Improvement on the Manufacture of Ethylene Oxide By Using a New Silver Catalyst |
IX-1-2 | Methanol from Non-Hydrocarbon Sources |
IX-1-1 | Cost of Utilities |
Report Number | Report Name |
---|---|
CR001 | Wide Range Linear Alpha Olefin Processes |
CR002 | On-Purpose Linear Alpha Olefin Processes |
CR003 | Propylene Oxide |
CR004 | Oxo Alcohols |
CR005 | On-Purpose Acetic Acid |
CR006 | Polypropylene Impact Copolymer |
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Report Number | Report Name |
---|---|
32G | Ammonia Cracking Technologies for Hydrogen Production |
199J | Base Chemicals from Plastics Pyrolysis Oil |
29N | Net-zero Ethylene Production by Steam Cracking of Naphtha |
32F | Commercially Available Blue Hydrogen Production |
199I | Tire Recycling |
115E | Biodegradable Polymers |
309 | Bio-Based Monoethylene Glycol |
43G | Reduced Carbon Intensity and Renewable Methanol Production |
303D | Crude Oil Conversion to Chemicals |
29L | Bioethylene by Ethanol Dehydration |
227 | 1,3 Propanediol and Polytrimethylene Terephthalate (PTT) |
20, 20A, 20B, 20C | ABS Resins |
69, 69A | Acetal Resins |
24, 24A/2 | Acetaldehyde |
37, 37C | Acetic Acid |
37A, 37B | Acetic Acid and Acetic Anhydride |
77 | Acetone, Methyl Ethyl Ketone (MEK) and Methyl Isobutyl Ketone |
16, 16A | Acetylene |
109 | Acetylene vs. Ethylene as a Chemical Raw Material |
216 | Acid Gas Treatment and Sulfur Recovery |
99 | Acrylamide and Polyacrylamide 99 |
6E | Acrylic Acid from Glycerin |
6, 6A, 6B, 6C, 6D | Acrylic Acids and Acrylic Esters |
6F | Acrylic Acid |
17, 17A, 17A/1, 17A/2, 17A/3, 17B | Acrylonitrile |
78 | Acrylonitrile Thermoplastics |
83, 83A | Adhesives |
3, 3A, 3B | Adipic Acid |
257 | Advanced Biorefineries |
180C, 180D | Advanced Carbon Capture |
51B | Advanced Composite Materials |
247A | Advanced Gas-to-Liquid Process |
196 | Advanced Structural Ceramics |
44, 44A, 44B | Advances in Ammonia Technology |
251A | Advances in Biodiesel and Renewable Diesel Production |
129A, 129B, 129C | Advances in Catalytic Reforming |
195, 195A | Advances in Fluid Catalytic Cracking |
187, 187A | Advances in Hazardous Waste Treatment |
190C | Advances in Membrane Technology for Chemical Separation Applications |
199E | Advances in Mixed Plastics Chemical Recycling |
248A | Advances in Naphtha Steam Cracking |
275 | Advances in Natural Gas Conversion Technologies |
225 | Advances in Oxidation Technology |
25D | Advances in p-Xylene Technologies |
56B | Advances in Urea Technology |
1F | Aliphatic Diisocyanates Processes |
59, 59A | Aliphatic Surfactants |
203 | Alkane Dehydrogenation and Aromatization |
138 | Alkyl Amines |
180G | Alternative Carbon Capture Technologies |
88, 88A, 88B,88C | Recent Advances in Light Hydrocarbon Alkylation |
44C | Ammonia |
106, 106A | Amino Acids |
76C | Aniline and Derivatives |
59B | Anionic Surfactants |
85, 85A | Antioxidants |
85B | Antioxidants and Light Stabilizers |
167 | Aramids |
76, 76A/1, 76B | Aromatic Amines |
182, 182A, 182B | Aromatic Processes |
30, 30A | Aromatics BTX |
25E | Aromatics Upgrading Technologies |
209 | Aromatics Industry Outlook |
144 | Ascorbic Acid |
179 | Barrier Resins |
310 | Batteries for Electric Vehicles |
145 | Battery Limits Cost Estimating |
145C | Battery Limit Cost Estimation |
145D | Waste Treatment Cost Estimation |
19G | Bimodal HDPE |
19E | Bimodal Linear Low-Density Polyethylene |
284 | Bio-Based Adipic Acid |
59C | Bio-Based Anionic Surfactants |
259 | Bio-based C3s |
294 | Bio-Based Furan Dicarboxylic Acid and Its Polymer Polyethylene Furanoate |
265, 265A | Bio-based Polymers |
265B | Bio-based Polymers |
217 | Bio-Based Polyols |
206A | Bio-Based Solvents |
292 | Bio-Based Succinic Acid |
278B | Bio-based Sustainable Aviation Fuels |
264 | Biobutanol |
241 | Biocatalysis |
263 | Biochemical Cellulosic Ethanol |
115D | Biodegradable Polymer Life Cycle Assessment |
115C | Biodegradable Polymers |
250 | Biodegradable Polymers from Plants |
251 | Biodiesel Production |
278 | Biofuels from Algae |
258 | Biomass Gasification |
302 | Biomass Pretreatment |
286 | Biomass Pyrolysis |
188 | Biotechnology Reaction Systems |
188A, 188B | Biotechnology Separation Processes |
192 | Bisphenol A and Alkylated Phenols |
192A | Bisphenol A |
81 | Bisphenol A and Phosgene |
175B | Blends Containing Engineering Thermoplastics |
175A | Blends Containing Polyolefins |
175 | Blends of Thermoplastic Polymers |
146 | Bulk Chemicals from Synthesis Gas |
35, 35A/1, 35B, 35C | Butadiene |
35D | Butadiene as a Low Chemical Raw Material |
74 | Butylene Polymers |
71, 71A | Butylenes |
118 | Butyrolactam and Laurolactam 118 |
126 | C1 Chlorinated Hydrocarbons |
7/1, 7/2, 7A, 7B, 7C | Caprolactam |
7D | Caprolactam Update |
90 | Carbon Black |
180B | Carbon Capture from Coal Fired Power Generation |
180A | Carbon Capture From Natural Gas Power Generation |
237 | Carbon Dioxide (CO2) Emissions Reduction |
180H | Carbon Dioxide Capture Economics Model |
180I | Carbon Dioxide Capture Economic Model – Part II |
180 | Carbon Dioxide Separation |
285A | Carbon Dioxide Utilization Technologies |
165, 165A | Carbon Fibers |
123 | Carbon Monoxide |
153, 153A | Catalysts |
153F | Catalysts for Polyolefins |
153C | Catalysts for Polypropylene for Polyethylene Production |
153G | Catalysts for Reforming Naphtha to Hydrocarbons |
263A | Cellulosic Bioethanol |
100 | Chemical Production by Fischer-Tropsch and Related Syntheses |
RP199D | Chemical Recycling of PET |
234 | Chemicals for Electronics Industry |
252 | Chemicals From Agricultural Wastes |
235 | Chemicals from Ethanol |
236 | Chemicals from Renewable Resources |
147 | Chemicals from Wood and Wood Wastes |
232 | Chiral Intermediates |
48 | Chlorinated Solvents |
61, 61A, 61B, 61C, 61D | Chlorine |
61E | Chlorine-Advanced Commercial Chlor-Alkali Technology |
112 | Chlorine Dioxide, Chlorates, Chlorites and Hypochlorites |
201 | Chlorofluorocarbon Alternatives |
67 | Chloroprene |
154, 154A, 154B | Coal Gasification |
101 | Coal Tar Chemicals |
271 | Coal to Gasoline |
305 | Coal to Liquids |
279 | Coal to Olefins |
277 | Coal to Substitute Natural Gas |
181, 181A | Cogeneration 181A |
181B | Commercial Scale Cogeneration |
280 | Compendium of Leading Bioethanol Technologies |
162 | Computer Program for Estimating Plant Envestment |
119 | Construction Costs |
213 | Copolyesters |
148/1 | Costs of Synthesis Gases and Methanol |
49, 49A1 | Cresols and Cresylic Acids |
303 | Crude Oil to p-Xylene Hengli Refinery-PX Complex |
303C | Crude Oil to p-Xylene—Shenghong Refinery-PX Complex |
303A | Crude Oil to p-Xylene – Zhejiang Refinery-PX Complex |
219 | Cumene |
219A | Cumene |
238 | Custom Chemical Manufacture |
133 | Desalination |
183 | Detergent Builders |
75 | Dibasic Acids for Nylon Manufacture |
79, 79A | Dihydroxybenzenes |
301 | Dimethyl Carbonate |
235A | Direct Ethanol to C4 Chemicals and Fuels |
245B | Dimethyl Ether (DME) From Coal |
245 | Dimethyl Ether As Alternate Fuel |
245A | Dimethyl Ether As Fuel |
243A | Direct Methanol Fuel Cells |
299 | Direct Syngas to Light Olefins |
102 | Disposal and Recovery of Waste Organo-Chlorides |
260 | Economics and Petrochemical Cycles |
107 | Economics of Chemical Refineries |
127B | Economics of Fertilizer Complexes |
204 | Economics of Petrochemical Complexes |
172 | Economics of Petrochemical Production in Saudi Arabia and Western Canada |
204A | Economics of Petrochemicals in S.E. Asia |
204B | Economics of Petrochemicals Production In China |
116 | Electron Beam Curing Polymers |
115, 115A, 115B | Environmentally Degradable Polymers |
139 | Enzyme Technology |
38, 38A | Epoxy Resins |
145A | Estimating Plant Investments |
149 | Ethanol for Gasohol |
149A | Ethanol Production in Brazil |
29, 29B, 29E | Ethylene |
29O | Ethylene e-Cracker: Comparative Analysis of Electricity Sources For Naphtha Cracking |
29F | Ethylene by Non-Conventional Processes |
155 | Ethylene Copolymers |
220 | Ethylene Feedstock Outlook |
208 | Ethylene from Methane |
150 | Ethylene from Refinery Gas |
2I | Ethylene Glycol |
70A, 70B | Ethylene Glycol |
70 | Ethylene Glycols, Glycol Ethers and Ethanolamines |
29D | Ethylene Industry Profiles |
2F | Ethylene Oxide and Ethylene Glycol |
193 | Ethylene Oxide Derivatives |
29C | Ethylene Plant Conversion |
29G | Ethylene Plant Enhancement |
4, 4A, 4C | Ethylene Propylene Co-Polymer and Terpolymers |
4B | Ethylene Propylene Terpolymer Rubber |
29A | Ethylene-Propylene |
155A | Ethylene/Vinyl Acetate Copolymers |
155B | Ethylene-Vinyl Acetate Copolymers |
306 | Ethylene via Acetylene from Natural Gas |
205B | Experience Curves |
42, 42A/1 | Fatty Acids |
40 | Fatty Nitrogen Compounds |
95 | Fermentation Processes |
127 | Fertilizers - Ammonium Phosphate |
127A/1 | Fertilizers - Nitrogen |
92 | Flame Retardant Additives |
92A | Flame Retardant Additives |
114 | Flame Retardant Polyols |
166, 166A | Fluorinated Polymers |
166B | Fluoropolymers |
97, 97A | Foamed Plastics |
23, 23A | Formaldehyde |
23B | Formaldehyde |
156 | Formic Acid |
274 | Fuel Alcohols and Electricity Cogeneration from Petroleum Coke Gasification |
243 | Fuel Cells for Vehicles and Power |
231 | Fuels for 21st Century Vehicles |
52 | Furnace Phosphorus and Phosphoric Acid |
132 | Gas Oil Conversion to Fuels and Petrochemicals |
247 | Gas To Liquids |
273 | Gasoline Benzene Removal |
239 | Global Chemical Industry in the 21st Century |
58 | Glycerine and Intermediates |
266 | Heavy Oil from Tar Sands |
214A | Heavy Oil Hydrotreating |
210 | Hetercyclic Nitrogen Compounds |
31, 31A, 31B, 31C | Hexamethylenediamine |
184 | High Purity Silicon 184 |
86, 86A, 86B, 86D, 86E, 86F | High Temperature Polymers |
19C, 19D | High-Density Polyethylene |
RP195B | High Olefins Fluid Catalytic Cracking Processes |
174A | High-Output Fluidized Bed Polyethylene Technology |
268 | Higher Alcohols from Syngas, Technology Survey |
134 | Hydrochloric Acid |
211 | Hydrocracking |
211A | Hydrocracking for Middle Distillates |
211B | Hydrocracking of Heavy Oils and Residua |
211C | Hydrocracking by Slurry Process |
89 | Hydrofluoric Acid and Fluorocarbons |
32, 32A | Hydrogen |
32E | Hydrogen by Electrolysis |
199K | Hydrogen from Plastic Waste |
68B | Hydrogen Peroxide |
68, 68A/1 | Hydrogen Peroxide and Peracetic Acid |
32C | Hydrogen Production |
214 | Hydrotreating |
32D | Hydrogen Delivery Options |
242 | Industrial Coatings |
139A | Industrial Enzymes |
226 | Innovative Chemical Reactors |
226A | Innovative Reactors and Process Intensification |
169A | Integrated Refinery/Petrochemical Profitability |
124, 124A | Ion Exchange Resins |
256 | Ionic Liquids |
1A/1, 1A/2, 1B, 1C/1, 1C/2, 1D, 1E | Isocyanates |
91 | Isomerization of Paraffins 91 |
28, 28A/1, 28B | Isoprene |
293 | Iso-C4 Processes |
247D | Large-scale Gas-to-Liquids Plants |
199G | Large-scale Pyrolysis—Plastic Chemical Recycling |
RP297 | Light Hydrocarbon and Light Naphtha Utilization |
12, 12A, 12B/1, 12C, 12D, 12E | Linear Alpha Olefins |
303E | Light olefins focused crude oil to chemicals complex |
163 | Linear C12-C15 Primary Alcohols |
27 | Linear Higher Alcohols |
36C, 36E | Linear Low Density Polyethylene |
19, 19A, 19B | Linear Polypropylene and Polyethylene |
103 | Liquefied Natural Gas |
103A | Liquefied Natural Gas |
191A | Liquid Hydrocarbons from Synthesis Gas |
204C | Location Factors |
36, 36A, 36B, 36D | Low Density Polyethylene |
307 | Lubricant Base Oils |
310A | Lithium-based Materials for Battery Production |
157, 157A | Lubricating Oil Additives |
46, 46A/1, 46B, 46C | Maleic Anhydride |
199F | Mechanical Recycling of Waste Polymers |
43D | Mega Methanol Plants |
122 | Melamine |
190A | Membrane Gas Separation Processes |
190 | Membranes for Gas Separation |
296 | Metallocene Polyalphaolefins (PAO) |
11, 11A, 11B, 11C, 11D | Methacrylic Acid and Methacrylic Esters |
43, 43A/1, 43B, 43C, 43F | Methanol |
111 | Methanol as a Chemical Raw Material |
111A | Methanol Based Chemicals |
43E | Methanol From Coal |
282 | Methanol to Gasoline |
261 | Methanol to Olefins |
255 | Methyl Methacrylate |
131 | Methyl Tertiary-Butyl Ether and Tertiary-Butyl Alcohol (TBA) |
108 | Middle East's Potential in Chemicals |
177 | Mining Chemicals |
202 | Monomers for High Performance Polymers |
285B | Monetizing CO₂ |
55 | N-Paraffins |
29K | Naphtha Catalytic Cracking |
135, 135A | Natural Gas Liquids |
216A | Natural Gas Acid Gas Removal and Sulfur Recovery |
216B | Natural Gas Sweetening by Membrane Separation |
246 | Near-Zero Sulfur Diesel Fuel |
4D | New Generation EPDM Technologies 4D |
21F | New Generation Oxo Alcohols |
180F | Next Generation Carbon Capture |
153D | Non-Metallocene Single Site Catalysts |
168 | Nonionic Surfactants |
200 | NOx Removal |
41, 41A | Nylon 6 |
41B | Nylon 6 and Caprolactam |
54, 54A, 54B | Nylon 6,6 |
224 | Ocean Transportation Freight Rates |
158B | Octane Improvers |
158, 158A | Octane Improvers for Gasoline |
145B | Offsite Investment Cost Estimation |
142 | Oilfield Chemicals |
35E | On-Purpose Butadiene Production |
281 | On-Purpose Technologies for Polyethylene Comonomers |
140, 140A | Operating Costs in the Chemical Industry |
135C | Opportunities for Gas-to-Liquid Technologies |
212 | Options for Refinery Hydrogen |
304 | Options to Meet Impending Marine Bunker Fuel Specifications |
234A | Organic Light Emitting Diodes |
113 | Organic Phosphorus Compounds |
21, 21A, 21B, 21C, 21D, 21E | Oxo Alcohols |
221 | Oxygenate Economics |
190B | Pervaporation |
171, 171A, 171B, 171C, 171D | Pesticides and Intermediates |
205, 205A | Petrochemical Industry Profitability |
169B | Petrochemicals From Refinery Streams |
72, 72A/1, 72B | Petroleum Coke |
47, 47A | Petroleum Desulfurization |
222 | Petroleum Industry Outlook |
215 | Petroleum Refining Profitability |
120 | Petroleum Resins |
22, 22A, 22B, 22C, 22D | Phenol |
34, 34A, 34B | Phthalic Anhydride |
159 | Plastic Films |
199, 199A | Plastics Reclamation and Recycling 199 |
199B | Plastics Recycling to Liquids |
65A | Poly(meth)acrylates |
164 | Polyacetylene and Other Inherently Conducting Polymers |
65 | Polyacrylates |
94/1, 94/2 | Polyamides Other Than Nylons 6 and 66 |
73 | Polybutadiene |
96, 96A, 96B | Polybutylene Terephthalate (PBT) and Butanediol |
50, 50A, 50B, 50C, 50D, 50E, 50F | Polycarbonate Update |
223 | Polycyclic Olefins |
189 | Polyesters Thermoplastic |
185A | Polyethylene by Slurry-Phase Polymerization |
202A | Polyethylene Naphthalate Monomers |
18, 18A, 18B, 18C | Polyethylene Terephthalate |
18D | Polyethylene Terephthalate |
141, 141A | Polyethylene Terephthalate Bottles and Bottle Resins |
82 | Polyisoprene |
51C, 51D | Polymer Nanocomposites |
308 | Polyolefin Elastomers/Plastomers (POE/POP) |
173 | Polyolefin Specialty Products |
174 | Polyolefins by Gas Phase Processes |
45A | Polyols for Making Polyurethanes 45A |
45B | Polyols for Polyurethanes |
45C | Polyols for Polyurethanes |
45 | Polyols from Ethylene Oxide and Propylene Oxide |
128, 128A, 128E | Polypropylene |
128C | Polypropylene Update 128C |
272 | Polysilicon for Solar Wafers |
39, 39A, 39B, 39D | Polystyrene |
10, 10A, 10B, 10C, 10D | Polyurethanes |
57, 57A | Polyvinyl Acetate and Polyvinyl Alcohol |
13, 13A, 13B, 13C/1, 13D, 13E | Polyvinyl Chloride |
RP199C | Post–Consumer Plastic Recycling |
14 | Potash Fertilizers |
304A | Powering Shipping with Low Carbon Options |
98, 98A | Powder Coatings |
17/C | Propane-Based Acrylonitrile |
267B | Propane Dehydrogenation (II) |
267A | Propane Dehydrogenation Process Technologies |
267C | Propylene by Olefin Conversion Processes |
267D | Propane Dehydrogenation |
262 | Propylene Glycol from Glycerin |
178, 178A | Propylene Industry Outlook |
2E, 2G, 2H | Propylene Oxide |
2, 2A, 2B, 2C, 2D | Propylene Oxide And Ethylene Oxide |
198 | Propylene Oxide Derivatives |
267 | Propylene Production |
60, 60A | Proteins from Hydrocarbons |
9H | Purified Terephthalic Acid (PTA) |
195C | Pushing FCC for Maximum Chemicals Production |
143 | Pyrethroid Insecticides |
29M | Reduced Carbon Intensity Ethylene Production |
151 | Recovery of Low Temperature Heat |
254 | Refinery C5s Hydrocarbons |
237A | Refinery CO2 Emission Reduction |
153E | Refinery Catalysts |
303B | Refinery Configurations for Maximizing Crude Oil to Chemicals Production |
229 | Refinery Residue Gasification |
228 | Refinery Residue Updating |
169 | Refinery/Chemicals Interface |
129 | Reforming for BTX |
51, 51A | Reinforced Plastics |
180E | Retrofitting for Carbon Capture |
278A | Second Generation Biofuels |
160 | Silicones |
153B | Single-Site Catalysts |
185 | Slurry Phase Polypropylene |
285C | Small-scale CO2 Utilization Plants |
247B | Small Scale Gas-to-Liquids Technology |
32B | Small-Scale Hydrogen Production |
187B | Soil Remediation |
276 | Solar Photovoltaic Technology |
199H | Solvent-Based Recycling of Waste Plastics |
206 | Solvents Specialty |
218 | Speciality Surfactants |
159A, 159B | Specialty Plastic Films |
173A | Specialty Polyolefins: VLDPE |
207 | Specialty Styrenic Thermoplastics |
186 | Specialty Thermoplastic Elastomers |
29J | Steam Cracking of Crude Oil |
248 | Steam Cracking For Olefins Production |
244 | Strategic Business Units for Epoxy Resins and Polycarbonates |
249 | Strategic Business Units of ABS and Polystyrene Resins |
240 | Strategic Business Units of Nylon 6 and Nylon 66 |
33, 33A, 33B, 33C | Styrene |
176 | Styrene and p-Methylstyrene and Polymers |
64 | Styrene Butadiene Elastomers |
63C | Sulfur Dioxide Removal From Flue Gases |
63, 63A, 63B | Sulfur Dioxide Removal From Stack Gases |
230 | Sulfur Removal from Petroleum Fuels |
84, 84A | Sulfuric Acid |
194, 194A | Superabsorbent Polymers |
19F | Supercritcal Loop Reactor Slurry Process for Producing Polyethylene and Polypropylene |
269 | Supercritical CO2: a Green Solvent |
197 | Supercritical Fluid Processing |
278C | Sustainable Fuels from Waste Residues |
170 | Sweeteners |
65B | Syndiotactic Poly(meth)acrylates |
128B | Syndiotactic Polypropylene 128B |
39C | Syndiotactic Polystyrene |
RP298 | Syngas Fermentation Processes |
148A | Synthesis Gas |
110 | Synthesis Gas Production |
148D | Synthesis Gas Production from Chinese Gasifiers |
148C | Synthesis Gas Production from Coal and Petroleum Coke Gasification |
148B | Synthesis Gas Production from Natural Gas Reforming |
53, 53A, 53A/1 | Synthetic Ethanol and Isopropanol |
285D | Synthetic Fuels from Hydrogen and Captured Carbon Dioxide |
125A | Synthetic Lubricant Base Stocks |
125 | Synthetic Lubricants |
87 | Synthetic Paper |
303F | TC2C™ Thermal Crude to Chemicals Technology |
128D | Technologies for the Production of Secondary Propylene |
9F | Terephthalic Acid |
9, 9A, 9B, 9C, 9E | Terephthalic Acid and Dimethyl Terephthalate |
233 | The Promise of New Technology Platforms for Biotechnology |
270 | Thermochemical Cellulosic Ethanol |
175C | Thermoplastic Elastomer Blends |
104, 104A | Thermoplastic Elastomers |
93A | Thermosetting Matrix Resins |
93 | Thermosetting Resins |
117 | Titanium Dioxide Pigment |
80 | Treatment of Petrochemical Wastewater |
66 | Trimellitic and Pyromellitic Anhydrides |
300 | Unconventional Aromatics Processes |
26, 26A | Unsaturated Polyesters |
56, 56A | Urea |
136, 136A | Utilities Plant Costs |
191 | Utilization of Remote Methane |
152 | UV Curing of Coatings Inks and Adhesives |
161 | Vacuum Residuum as a Petrochemical Feedstock |
247E | Value-Added Products from GTL Plants |
15, 15A | Vinyl Acetate |
15C | Vinyl Acetate Monomer |
15B | Vinyl Acetate/Polyvinyl Acetate |
5, 5A, 5B, 5B/1, 5C, 5D | Vinyl Chloride |
62, 62A | Vinyl Plasticizers |
253 | Vinyl Polymers |
105 | Vinylidene Chloride, Monomer and Polymers |
137 | Waste Treatment Costs |
295 | Wastewater Treatment Technologies |
130A | Water-Soluble Polymers |
130 | Water-Soluble Resins |
8, 8A, 8B, 8C | Wet Process Phosphoric Acid |
121, 121A, 121B, 121C | World Petrochemical Feedstocks |
25, 25A, 25B/1, 25C | Xylenes Separation |
Review Number | Review Name |
---|---|
2024-01 | Carbon Footprint of Chemical Industry |
2024-03 | Production of MDEA |
2024-04 | Ultrapure Water for Green Hydrogen |
2024-06 | Bastnäsite Ore Processing for Rare-earth Oxide Production — Part I |
S2024-16 | Small Modular Reactors White Paper |
2024-15 | Polyvinylidene Fluoride using Non-Fluorinated Surfactant |
2024-12 | Ammonia as a Direct Fuel for Gas Turbine |
2024-10 | Dynamic Construction Location Factors Update |
2024-09 | Biogas from Biomass |
2024-07 | On-purpose Butadiene Production by LG-Chem process |
2024-05 | Hydrodealkylation of Toluene for Benzene Production by Axens Technology |
2024-02 | Per- and Polyfluoroalkyl Substances (PFAS): A Profile |
2023-15 | Dynamic Construction Location Factors Update |
2023-14 | Novolen® Polypropylene Update |
2023-13 | TrueBlue Methanol®Process |
2023-12 | Vinyl Chloride Monomer |
2023-11 | Sour Water Stripping with Ammonia Separation |
2023-10 | Monetizing CO₂ Impact of Rules 45Q and 45V |
2023-09 | Hydrochloric Acid from Hydrogen and Chlorine |
2023-08 | Diesel Hydrocracking for Naphtha |
2023-07 | Oleic Acid from Crude Palm Oil |
2023-06 | UOP MaxEne™ Process |
2023-05 | XPRIZE Milestone Award Winners - A First Look at Their Commercial Prospects |
2023-04 | Green Ammonia via Electrolytic Hydrogen |
2023-03 | Gasoline Production by GT-BTX PluS |
2023-02 | Blue Ammonia via Casale’s A6000CC™ Technology |
2023-01 | CO2 to Ethylene via Electroreduction |
2022-15 | Decarbonizing a Palm Oil Mill and Refinery |
2022-14 | Isopropyl Alcohol (IPA) from Acetone |
2022-13 | Polybutylene Terephthalate |
2022-12 | Propylene Glycol from Glycerin by Sulzer GTC’s GT-ProGSM Process |
2022-11 | Blue Hydrogen Via Autothermal Reforming |
2022-10 | Assessment of a Biogas Refinery |
2022-09 | Phthalic Anhydride-An Update |
2022-08 | Methanol-to-Hydrogen Conversion Process |
2022-07 | Blue Hydrogen |
2022-06 | Deep Catalytic Cracking (DCC) |
2022-05 | Dow Net-zero Olefins from Ethane |
2022-04 | Low Carbon Ethylene Production via E-furnace Powered by NET Power Cycle |
2022-03 | Net-zero carbon ethylene production via recovery of CO2 from cracking furnace flue gas |
2022-02 | Natural Gas to Ammonia by Linde Ammonia Concept (LAC™) Process | S&P Global |
2022-01 | Mitsubishi Gas Chemical Methanol Process | S&P Global |
2021-15 | Hydrogen from Natural Gas with Carbon Capture |
2021-14 | Economics of LNG Cold Energy Utilization by Generation of Electricity |
2021-13 | Cost Analysis of a Typical Oil and Gas Production Unit |
2021-12 | Fertilizer Grade Ammonium Nitrate Production by KBR Process |
2021-11 | FCC Revamp Economics |
2021-10 | Carbon Footprint and Allocation in an Integrated Refinery - Petrochemical Complex |
2021-09 | Wet Sulfuric Acid Process |
2021-08 | Hydrogen from Natural Gas with 60% Carbon Dioxide Capture |
2021-07 | Hydrogen and Carbon Black by Methane Pyrolysis |
2021-06 | Polyethylene Production by Borealis' Borstar® 3G PE Multimodal Process |
2021-05 | Natural Gas to Gasoline by Haldor Topsøe’s TIGAS™ Process |
2021-04 | Mixed Feed Naphtha Steam Cracking |
2021-03 | Sulfur forming—Granulation Process |
2021-02 | Electric Power Via NET Power |
2021-01 | Processing Lean Natural Gas |
2020-15 | Green Ammonia Technology |
2020-14 | Maleic Anhydride from n-Butane by Scientific Design Co. process |
2020-13 | Plastic Recycling-Value Preservation and Carbon Avoidance |
2020-12 | Ethane Export Terminal |
2020-11 | Integrated Cumene-Phenol/Acetone-Bisphenol A-Part III: Bisphenol A (BPA) |
2020-10 | Integrated Cumene-Phenol/Acetone/Bisphenol A - Part II: Phenol/Acetone |
2020-09 | Integrated cumene-phenol/acetone/Bisphenol A- Part I: Cumene |
2020-08 | Maleic Anhydride by Huntsman Technology |
2020-07 | Green Methanol Production Process |
2020-06 | LNG Regasification Terminal |
2020-05 | Floating Methanol Production |
2020-04 | KBR K-COT Catalytic Cracking Process |
2020-03 | Polyetherketoneketone (PEKK) |
2020-02 | Phenol Production by ExxonMobil 3-step Process |
2020-01 | Ethylene to Alkylate Process by Next Wave Energy |
2019-15 | Plastic Recycling and Sustainability—a Process Economics Framework |
2019-14 | Full Density Polyethylene |
2019-13 | TM Ionikylation Process" href="https://www.spglobal.com/commodityinsights/en/ci/products/pep-review-2019-13-Well-resources-ionikylation-process.html">Well ResourcesTM Ionikylation Process |
2019-12 | Dynamic Construction Location Factors |
2019-11 | MAX-ISOM™ Technology |
2019-10 | DMTE Technology - Syngas to Methyl Acetate or Ethanol |
2019-09 | SuperClaus® Process for enhanced sulfur recovery |
2019-08 | MEG Process via Formaldehyde |
2019-07 | Hydrogen Production by Electrolysis |
2019-06 | Methanol from Coke-oven Gas |
2019-05 | Hydrochloric Acid (HCl) Recycle to Chlorine by the Sumitomo Catalytic Oxidation Process |
2019-04 | Waste Treatment Costs for Non-Phosgenation Based Polycarbonate Production |
2019-03 | Single Step MIBK Process |
2019-02 | Methaforming |
2019-01 | Small Scale Anhydrous Hydrochloric Acid |
2018-15 | Flare Systems |
2018-14 | Acrylic Acid by BASF Technology |
2018-13 | Methyl Methacrylate (MMA) Production by BASF Process |
2018-12 | Sulfuric Acid from Sulfur - Updates on Contact Process |
2018-11 | Chevron Lummus Global LC-SLURRY Technology for VR Upgrade |
2018-10 | Dual Methane Expander Liquefaction for LNG Production (with Promax Simulation) |
2018-09 | Hydrogen Chloride (HCl) Recycle to Chlorine Using ODC Electrolysis Technology |
2018-08 | Styrene by Total Fina/Badger Process |
2018-07 | UOP’s Two-Stage Tatoray™ Process |
2018-06 | Crude Oil to Chemicals and Oxidative Coupling of Methane: Potential for Synergy? |
2018-05 | Methyl Methacrylate (MMA) Production by Evonik’s LiMA Process |
2018-04 | Crude Oil Vacuum Distillation |
2018-03 | Crude Oil Atmospheric Distillation |
2018-02 | Condensate Splitting |
2018-01 | Acetic Acid by Chiyoda CT-ACETICA™ Process |
2017-15 | Estimation of Project Cost beyond EPC Construction Costs |
2017-14 | Isoprene by Isopentane Dehydrogenation |
2017-13 | TDI (Toluene Diisocyanate) Process |
2017-12 | Accounting for Carbon Emission Cost in Chemical Production Economics |
2017-11 | SBR Process Summary |
2017-10 | Styrene by CB&I/UOP SMART Technology |
2017-09 | Styrene by CB&I/UOP Classic Technology |
2017-08 | Melamine by Golden Elephant Process |
2017-07 | Isoprene Process Summary |
2017-06 | Diphenyl Carbonate by Asahi Kasei Process |
2017-05 | Bimodal HDPE production by a gas-phase process similar to LyondellBasell’s Hyperzone Process |
2017-04 | Syngas Production for Ammonia from Coal |
2017-03 | Syngas Production for Ammonia from Natural Gas |
2017-02 | Ammonia Production by Haldor Topsøe Advanced Process |
2017-01 | CNPC (China National Petroleum Corporation) Millionton PTA Process |
2016-15 | Nitric Acid KBR Weatherly Single-Pressure Process |
2016-14 | Ammonia Production by Haldor Topsøe Conventional Process |
2016-13 | MDI Process Update |
2016-12 | Chlor-Alkali Process Summary |
2016-11 | Propylene Process Summary |
2016-10 | Acrylic Acid Process Summary |
2016-09 | Nitric Acid KBR Weatherly Dual-Pressure Process |
2016-08 | Chemical Value Chain Production Economics |
2016-07 | Air Separation Process Update |
2016-06 | Pygas C5 Separation Processes |
2016-05 | Process Summary: Natural Gas Liquids Separation and Recovery |
2016-04 | ExxonMobil Butyl Rubber Process |
2016-03 | LNG Process Summary |
2016-02 | Toluene Methylation Process by GT-TolAlkSM Technology |
2016-01 | Carbon monoxide production from syngas via cryogenic partial condensation process |
2015-15 | LLDPE Process Summary |
2015-14 | Acrylonitrile Process Summary |
2015-13 | Small-Scale Floating LNG |
2015-12 | BP’s PX Crystallization Process Offered by CB&I Lummus |
2015-11 | BP New Generation Process for Polymer-Grade Terephthalic Acid Production |
2015-10 | Hydrogen Process Summary |
2015-09 | Ethylene Process Summary |
2015-08 | Polyvinyl Chloride by JNC Suspension Polymerization Process |
2015-07 | Hydrogen Cyanide by the Andrussow and BMA Processes |
2015-06 | Polyamide (Nylon) 6 and 66 Process Summary |
2015-05 | Cellulose Acetate Flake |
2015-04 | Isoprene Production via Kuraray One-Step Isoprene and Formaldehyde Process |
2015-03 | Hydrogen Balancing in a Gas-to-Liquids (GTL) Plant |
2015-02 | Bayer-ThyssenKrupp ODC (Oxygen Depolarized Cathode) Chlor-Alkali Technology |
2015-01 | Acid Gas Removal from Natural Gas |
2014-15 | Sugar Production via Corn Wet Milling |
2014-14 | Polybutadiene Production by Lithium Catalyst |
2014-13 | On Purpose Octene-1 by Dow's Butadiene Telomerization Process |
2014-12 | Octene-1 by Sasol Heptene-1 Hydroformylation Technology |
2014-11 | Monoethylene Glycol (MEG) Process Summary |
2014-10 | Acetic Acid from Syngas via the BP SaaBre Process |
2014-09 | Polybutadiene Production by Neodymium Catalyst |
2014-08 | Ethylbenzene by Badger EBMaxSM Liquid Phase Alkylation Process |
2014-07 | Oxidative Coupling of Methane to Ethylene by Siluria Process |
2014-06 | Methanol Process Summary |
2014-05 | Methyl Methacrylate (MMA) Process Summary |
2014-04 | para-Dichlorobenzene |
2014-03 | Polypropylene Process Summary |
2014-02 | Exxon Isodecyl Alcohol from Nonenes |
2014-01 | Syngas via MIDREX® SynRG™Reformer |
2013-15 | Hydrogen Peroxide |
2013-14 | Liquid-Phase Alkylation of Dilute Ethylene to Ethylbenzene by Lummus Process |
2013-13 | Update of Offsite Costs |
2013-12 | LDPE Process Summary |
2013-11 | Phenol and Cumene Process Summary |
2013-10 | Adipic Acid from Free Fatty Acids via Verdezyne Fermentation |
2013-09 | Coal-Based MEG Production by Ube Process |
2013-08 | Coal-Based MEG Production by Sinopec SRIPT Process |
2013-07 | Acetic Acid, Update of the BP Cativa Process |
2013-06 | High-Purity Isobutylene from t-Butanol by LyondellBasell Process |
2013-05 | Propylene Production via the Ethylene Dimerization and OCT Technology |
2013-04 | Davy Methanation Process Technology Integrated with Coal to Substitute Natural Gas |
2013-03 | Cerenol™—DuPont Polyether Glycol Made from 1,3-Propanediol (PDO |
2013-02 | NGL Recovery by Low Pressure Drop Refrigeration Process |
2013-01 | Acetic Acid, Update of the Celanese AO Plus Process |
2012-15 | Tipping Point for Power Generation: New NGCC vs Legacy Coal |
2012-14 | Light Naphtha Isomerization by JSC SIE Neftehim IsoMalk-2™ Process |
2012-13 | Polyamide (Nylon) 6 |
2012-12 | Glacial Acrylic Acid via Sulzer Falling Film Crystallization |
2012-11 | 1-Hexene Production by Axens AlphaHexol™ Process |
2012-10 | Ethylene Glycol Production from Coal-Based Synthesis Gas |
2012-09 | Polypropylene by INEOS Technologies Innovene™ PP Process |
2012-08 | PEP Cost Index Methodology Update |
2012-07 | Methyl Tertiary Butyl Ether Production from Steam Cracker C4 Stream |
2012-06 | High-Purity Isobutylene Production by MTBE Cracking |
2012-05 | Propylene Production by the JGC/MCC DTP™ Process |
2012-04 | Process Economics of Coal-Based Olefins Production in China |
2012-03 | Coal Gasification Technology in China |
2012-02 | Acetic Acid, Update of Oxidation Routes |
2012-01 | Acetic Acid, Update of the Chiyoda Acetica™ Routes |
2011-15 | Polypropylene by LyondellBasell's Spheripol Process |
2011-14 | Methanol Production via Toyo Process |
2011-13 | Advanced Technology Natural Gas Combined Cycle |
2011-12 | Continuous SAP Production via Double Kneader Reactor |
2011-11 | Enhanced Oil Recovery (EOR) Using CO2 |
2011-10 | Ethanol Production by Celanese Acetyl Technology |
2011-09 | Bio-Based Isoprene |
2011-08 | Polycarbonate via Dow Phosgenation Process |
2011-07 | Updating the PEP Cost Index |
2011-06 | Rebalancing the PEP Cost Index |
2011-05 | On-Purpose Butadiene Production |
2011-04 | Propylene Production via Metathesis of Ethylene and Butenes |
2011-03 | Closed Loop Processing in Polysilicon Production |
2011-02 | Carbonate Production by an Alkyltin Alkoxide Catalyst |
2011-01 | Chloroacetic Acid by Direct Chlorination |
2010-15 | CO2 Recovery by Fluor's CO2LDSep? Process |
2010-14 | Bio-Based Succinic Acid |
2010-13 | Reverse Osmosis for Seawater Desalination |
2010-12 | Ethylene Oxide Production by Nippon Shokubai Process |
2010-11 | Thermal Visbreaking of Vacuum Residue |
2010-10 | Lummus/CB&I Hexene-1 from C4 Process (Comonomer Production Technology) |
2010-09 | Propylene Production from Propane by the Catofin Process |
2010-08 | Electrostatic Desalting of Opportunity Crude Oils |
2010-07 | ABS Resin Production |
2010-6 | Catalytic Steam Gasification |
2010-5 | Lithium for Electric Vehicles—a Technology and Economic Assessment |
2010-4 | Fischer-Tropsch Oxygenated Products |
2010-3 | Ultra High Supercritical Pulverized Coal |
2010-2 | ExxonMobil's Ultra High Viscosity Index Poly Alpha Olefin Lubricant Blend Stock |
2010-1 | Polyvinyl Alcohol Production |
2009-15 | Liquid Phase Methanol |
2009-14 | C3-C4 Oligomerization for Gasoline |
2009-13 | Natural Gas Recovery from Methane Hydrates via Depressurization |
2009-12 | Carbon Dioxide Compression |
2009-11 | Ammonia from Natural Gas by the KBR Purifier Process |
2009-10 | Ammonia from Natural Gas by the Lurgi-Casale Megammonia Process |
2009-9 | Biodiesel from Algae |
2009-8 | Polyethylene Production By A Solution Process Using Loop Polymerization Reactors |
2009-7 | Cyclic Olefin Copolymers (COC) |
2009-6 | Polyphenylene Sulfide (PPS) |
2009-5 | Biodiesel via the Heterogeneous Catalysis Catilin Process |
2009-4 | Propylene Oxide by the BASF-Dow HPPO Process |
2009-3 | Integrated Production of Toluene Diisocyanate from Toluene |
2009-2 | Asahi Kasei Diphenyl Carbonate Process Involving the Production and Use of Dibutyl Carbonate |
2009-1 | HF Alkylation Process Incorporating ExxonMobil Concepts Disclosed In U.S. Patent Applications Issued In June/July 2008 |
2008-15 | Process Water Management and Treatment |
2008-14 | Processing Acidic Crude Oils |
2008-13 | Five-Year Outlook for Mergers and Acquisitions in the Chemical Industry |
2008-12 | Will the Real Carbon Footprint Please Stand Up? |
2008-11 | Carbon Capture Via Oxycombustion |
2008-10 | INEOS Slurry Loop Polyethylene Process |
2008-9 | Fuel and Petrochemical Price Relationships in High Crude Oil Price Environment |
2008-8 | Natural Gas Combined-Cycle Power Plant |
2008-7 | Pulverized Coal Fired Power Plant |
2008-6 | Advanced Pyrolysis Gasoline Upgrading |
2008-5 | Olefinic Block Copolymer Production Using Dow Chemical's Chain Shuttling Process |
2008-4 | Soil Remediation |
2008-3 | Chemical Plant Security Regulations and Associated Costs |
2008-2 | Acid Gas Removal |
2008-1 | Toluene Diisocyanate from Toluene Diamine by Bayer Gas Phase Phosgenation Preliminary Evaluation |
2007-15 | Estimating the Carbon Footprint of the Worldwide Chemical Industry |
2007-14 | Reach Briefing: A Review of EU Chemicals' Licensing |
2007-13 | Succinic Acid from Maleic Anhydride |
2007-12 | Passenger Car Motor Oil: Development and Future Trends |
2007-11 | Feedstock Price Issues for Bio-Derived Materials |
2007-10 | Ammonia from Natural Gas by KBR "KAAP" Process |
2007-9 | Ethyl Acetate by Direct Addition of Ethylene and Acetic Acid |
2007-8 | IsoTherming™ Hydrotreating Process for Ultra Low Sulfur Diesel Fuel |
2007-7 | Comparison of Polyethylene Processes |
2007-6 | Speculative Incremental Design Improvement for Caprolactam Via Liquid Phase Ammoximation And Vapor Phase Rearrangement |
2007-5 | Sellers Beware: Voluntary Carbon Offsets, Carbon Labels and the Chemical Industry |
2007-4 | Epichlorohydrin from Glycerin |
2007-3 | Hydrogen: a Technical Review |
2007-2 | Fischer-Tropsch Reactor System Loop |
2007-1 | Biobutanol |
2006-15 | p-Xylene by Combined Crystallization/Adsorption Process |
2006-14 | Production of Toluene Diisocyanate from Toluene Diamine and Dimethyl Carbonate |
2006-13 | Polyethylene by Basells Hostalen Process |
2006-12 | Trends in Coating Resins Made by Emulsion Polymerization |
2006-11 | Production of Propylene from Fluid Catalytic Cracker Naphtha Streams |
2006-10 | Polyethylene By Basell's Spherilene Process |
2006-9 | North American Ethylene Feedstocks |
2006-8 | Major Trends Affecting the Chemical Industry |
2006-7 | Remote Gas Strategies Onsite Storage of Natural Gas Hydrates |
2006-6 | Short Contact Time Catalytic Cracking |
2006-5 | Iron Catalysis for Fischer-Tropsch Fuels Production |
2006-4 | Sucralose Production Via the Sucrose-6-Acetate Route |
2006-3 | Biodiesel and Global Warmer Emissions: Is The Biofuel For Fossil Fuel Trade-Off Actually A Payoff? |
2006-2 | Price, Labor Cost and Labor Productivity Indices for PEP Cost Index China |
2006-1 | PEP Cost Index—China East Coast |
2005-15 | Recovery Of Styrene From Pyrolysis Gasoline |
2005-14 | Polyethylene by Chevron-Phillips Slurry Loop Process |
2005-13 | Vinylidene Chloride Copolymers by Suspension and Emulsion Polymerization |
2005-12 | Current Development of Technology for the Production of Bisphenol A |
2005-11 | Advances In Naphtha Steam Cracking |
2005-10 | Estimating CO2 from Production-Cost Data: What and Why? |
2005-09 | Diphenyl Carbonate from Phenol via Diphenyl Oxalates with Improved Ube Technology |
2005-08 | Production of Ethylene-Based Elastomers by a Solution Process with Exxpol™ Metallocene Catalyst |
2005-07 | Biodiesel via Axens Heterogeneous Catalysis Esterfip-H Process |
2005-06 | Polyethylene By Borealis' Borstar Process |
2005-05 | Lyondell Direct-Oxidation Propylene Oxide Technology |
2005-04 | Ethanol From Switchgrass |
2005-03 | LNG Regasification |
2005-02 | Remote Gas Strategies Commercial Status of GTL |
2005-01 | Remote Gas Strategies – Industry Status of Remote Gas Production |
2004-15 | Superflex™ Process For Light Olefins |
2004-14 | An Integrated Process for TDI via TDA and Dimethylcarbonate |
2004-13 | Online Trading for Chemicals: Status Outlook |
2004-12 | Formic Acid by Kemira Process |
2004-11 | Mega Ammonia |
2004-10 | Ethanol from Straw |
2004-9 | Hexafluoropropylene Oxide Production by a Biphasic Process |
2004-8 | Direct Methanol Fuel Cell Technology Update |
2004-7 | Update of Caprolactam via Liquid Phase Ammoximation and Vapor Phase Rearrangement |
2004-6 | Physical Property Issues In Simulation: Liquid-Liquid Equilibria |
2004-5 | Experience Curve Impact on Capital Cost |
2004-4 | Cyclohexanone from Cyclohexane by Bionic Oxidation with Sinopec Technology |
2004-3 | 1,3-Propanediol from Ethylene Oxide via A 3-Hydroxyester |
2004-2 | MDI |
2004-1 | Physical Property Issues In Simulation: Vapor-Liquid Equilibria |
2003-15 | Base Load LNG By Cascade Refrigeration |
2003-14 | Developments in the External Value of Intellectual Property in the Chemical Industry |
2003-13 | Competitive Intelligence from Environmental Regulatory Information |
2003-12 | NExOCTANE™ Isooctane Process |
2003-11 | Ethanol from Bagasse |
2003-10 | New One-Step Oxo Process for 1,3-Propanediol |
2003-9 | "Jumbo" Dimethyl Ether Production Process via Toyo Technology |
2003-8 | Salicylic Acid |
2003-7 | Anionic Polystyrene; A New Generation |
2003-6 | Online Process Economics Optimizers |
2003-5 | Process for Production of Ethylene Vinyl Alcohol Copolymer |
2003-4 | Economics Forces Restructuring The Chemical Industry |
2003-3 | Monetizing Carbon Dioxide Into Synthesis Gas |
2003-2 | Soil Remediation: Air Sparging and Thermal Desorption |
2003-1 | Carbon Nanotubes In Japan |
2002-15 | Divided-Wall Distillation Technology |
2002-14 | Ethylbenzene From Ethylene And Benzene via Zeolite Catalyzed Process (Sept 2003) |
2002-13 | Advances in Solid State Hydrogen Storage Technologies |
2002-12 | Butadiene Extraction by BASF New NMP Process |
2002-11 | Acrylate-Based Weakly Acidic Cationic Ion Exchange Resins |
2002-10 | Diphenyl Carbonate from Ethylene Carbonate via Dimethyl Carbonate by Asahi Technology |
2002-9 | Production of Perfluorodioxole and Amorphous Fluoropolymer |
2002-8 | Polyhydroxyalkanoates from Organic Wastes |
2002-7 | Liquefied Natural Gas By The Mixed Fluid Cascade Process |
2002-6 | Update on Phenol From Benzene via Single-Step Hydroxylation |
2002-5 | Biodiesel Production Via Axens' Heterogeneous Catalysis Process |
2002-4 | Polyvinylidene Fluoride (PVDF) By A Supercritical CO2 Process |
2002-3 | Hydrogen Energy and Its Future Applications |
2002-2 | Hydrogen Energy and Its Present Applications |
2002-1 | Security Vulnerability Assessments for the Chemical Industry |
2001-15 | Technologies for Lower-Carbon Power Generation |
2001-14 | “Jumbo” Methanol Production Process via Toyo Technology |
2001-13 | White Mineral Oils by the BASF Process |
2001-12 | S Zorb Diesel Sulfur Removal Technology |
2001-11 | UOP Methanol to Olefins |
2001-10 | The Olefins Industry in the New EU Member States: Profile And Competitive Assessment |
2001-9 | Acrylic Acid Production by Propane Oxidation |
2001-8 | Hydrogen Outlet For Methanol |
2001-7 | Single-Step Hydrogen Gas Synthesis |
2001-6 | Ethylene Carbonate From Ethylene Oxide |
2001-5 | Barge Mounted Methanol Production |
2001-4 | Petroleum Coke Gasification |
2001-3 | Commercial Production of Calcium Formate |
2001-2 | Physical Property Issues In Simulation: Gas Solubility |
2001-1 | Six Sigma In Chemicals: More Than A Fad, But Not For Everyone |
2000-15 | Future Process Technology Developments |
2000-14 | Reaction Injection Molded Automotive Body Panels |
2000-13 | Fischer-Tropsch Synthesis Via Reactive Distillation |
2000-12 | Fischer-Tropsch Synthesis Via Low Boiling Solvent Slurry Phase |
2000-11 | Barge Mounted GTL Production |
2000-10 | Impact Of The EU's 'Reach' Chemicals Policy |
2000-9 | Impact Of Biodiesel Growth: A Strategic Assessment |
2000-8 | Demography And Demand: Growth Scenarios For 2040 |
2000-7 | Ethanol From Corn Stover |
2000-6 | Regeneration Of Sulfuric Acid From Sulfate Salts Via Hydrogen Peroxide |
2000-5 | Acrolein Production From Propane |
2000-4 | Carbon Trading In The Chemical Industry: A Look At Coming CO2 Emission Limits |
2000-3 | Hydroquinone From Phenol Using Ti-Si Catalyst |
2000-2 | Maleic Anhydride from n-Butane by the Boc/Mitsubishi Technology |
2000-1 | The Aftertreatment Market For Particle And Nox Emissions In Diesel Road Transport |
99-15 | Acetaminophen |
99-14 | Methyl Methacrylate By Lucite's Alpha Technology |
99-13 | a-Tocopherol (Vitamin E) Acetate Production From Citral Via Isophytol |
99-12 | The Economics of Recycling PET in Europe |
99-11 | Responsible Investing and the Chemical Industry |
99-10 | Ascorbic Acid |
99-9 | Integrated Hydrogen Peroxide And Propylene Oxide Technology |
99-8 | Fluidized-Bed Technology For Vinyl Acetate Monomer |
99-7 | Lipase Production Using Pseudomonas Alcaligenes |
99-6 | alpha-Amylase Production Using Bacillus Species |
99-5 | Auto Dismantling |
99-4 | Catalytic Cracking of Light Cracked Naphtha to Produce Propylene |
99-3 | Linear Alkylbenzene By Heterogeneous Catalysis (Update) |
99-2 | ENI Slurry Hydroprocessing Technology For Diesel Fuel |
99-1 | Basell's Multizone Circulating Reactor (MZCR) Process |
98-15 | Caprolactam Via Gas Phase Beckmann Rearrangement |
98-14 | The Alkylene™ Process- Solid Acid Alkylation System |
98-13 | Methanol To Propylene By The Lurgi MTP Process |
98-12 | Production of Propylene from C4 |
98-11 | Production of Phenol From Benzene and Hydrogen Peroxide |
98-10 | Diphenyl Carbonate from Phenol via Diphenyl Oxalates with UBE Technology |
98-09 | Aromatics Saturation of Diesel via Two-Stage Hydrotreating |
98-08 | Production of Isobutylbenzene via The Alkylation of Toluene With Propylene |
98-07 | Hydrocracking Technology for Middle Distillate |
98-06 | Ethanol via Hydration of Ethylene |
98-05 | Chloralkali by Electrolytic Cells With Improved Technology |
98-04 | Production of Pyridine and Beta-Picoline |
98-03 | Propylene Oxide Via Direct Oxidation Of Propylene |
98-02 | Acrylonitrile Via The Ammoxidation Of Propane |
98-01 | Ethylenediamine Via The Amination of Monoethanolamine |
97-15 | Styrene Via Benzene And Ethane |
97-14 | Phytoremediation |
97-13 | Aromatics Complex Economics |
97-12 | Acetic Acid by the Chiyoda/UOP Acetica™ Process |
97-11 | Liquid Hydrocarbons from Natural Gas by Exxon's AGC 21 Process |
97-10 | Glyphosate |
97-9 | L-Lysine by Fermentation with Recovery by Ion-Exchange |
97-8 | Lysine-Sulfate Production by Fermentation with Recovery by Spray Drying |
97-7 | Deep Catalytic Cracking |
97-6 | One Step Phenol from Benzene by the AlphOx Process |
97-5 | The Changing Structure of the Chemical Industry |
97-4 | Supply Chain Management Practices Benchmarks in the Bulk Polymer Industry |
97-3 | Dow's Ethane Based Process for Ethylbenzene |
97-2 | Eastman Syngas-based Route for Methyl Methacrylate |
97-1 | PET Bottle Resin by Pyromellitic Dianhydride Process |
96-12 | Combinatorial Chemistry |
96-11 | Ethylene Outlook |
96-10 | Purified Terephthalic Acid From p-Xylene by Hydrolysis of Dimethyl Terephthalate |
96-9 | Aliphatic Polyketones from Carbon Monoxide and Olefins by the Shell Liquid-Phase Polymerization Process |
96-8 | Natural Gas to Liquid Hydrocarbons Technology Based on the Syntroleum Process |
96-7 | Lactic Acid By Fermentation |
96-6 | ICI's Polymethyl Methacrylate Tertiary Recycling Technology |
96-5 | Styrene-Butadiene Rubber |
96-4 | Hexamethylenediamine And Caprolactam From Adiponitrile by Partial Hydrogenation and Cyclization of Aminocapronitrile |
96-3 | Titanium Dioxide Technology Trends and Regional Production Cost Benchmarking |
96-2 | Formaldehyde From Methanol |
96-1 | Outlook For Propylene Availability in Asia-Pacific |
95-1-9 | Asahi Methacrolein Oxidative-Esterification Technology |
95-1-8 | 1-Hexene From Ethylene By The Phillips Trimerization Technology |
95-1-7 | Chlorine From Hydrogen Chloride by The Du Pont Electrolytic Process |
95-1-6 | Acrylonitrile Via High-Conversion Propane Ammoxidation |
95-1-5 | Norbornene from Dicyclopentadiene and Ethylene |
95-1-4R | Butanediol from n-Butane via Maleic Acid Hydrogenation |
95-1-3 | Bisphenol A Via Sinopec-Lummus Technology |
95-1-2 | Caprolactam From Butadiene |
95-1-12 | Intermaterial Substitution Simulation |
95-1-11 | Mitsui's Acetone Recycling Technology in Phenol Manufacturing |
95-1-10 | Butanediol From Butadiene Via Epoxybutene |
95-1-1 | Tert-Amyl Methyl Ether by the Nextame Process |
94-3-3 | Petrochemical Industry Cyclicality and Outlook |
94-3-2 | Polytetramethylene Glycol from Tetrahydrofuran via a Diacetate Intermediate |
94-3-1 | Natural Gas Pricing Mechanisms |
94-2-4 | Styrene from Butadiene via 4-Vinylcyclohexene by the Dow Process |
94-2-3 | Update on Maleic Anhydride From N-Butane Via Fluidized Bed Reactor with an Organic Solvent Absorber |
94-2-2 | One-Step Oxo Process For 1,3-Propanediol |
94-2-1 | A Nontower Process for High Bulk Density Detergent Powders |
94-1-4 | Dendrimer Polymer from Diaminobutane and Acrylonitrile |
94-1-3 | Chlorine from Hydrogen Chloride by the Carrier Catalyst Process |
94-1-2 | Lucky Nonphosgenation Process: MDI and PMPPI by Carbonylation |
94-1-1 | 1,4-Butanediol from Maleic Anhydride via Dimethyl Maleate |
93-3-4 | Xylenes Isomerization |
93-3-3 | Haldor Topsoe Alkylation Process |
93-3-2 | Coproduction of Ethylene and Vinyl Chloride by USC/Occidental Chemical Process |
93-3-1 | Styrene from Dilute Ethylene |
93-2-4 | Polyethernitrile (PENI) Heat Resistant Polymer From 2,6-Dichlorobenzonitrile and Resorcinol |
93-2-3 | Maleic Anhydride From n-butane; Fixed Bed Reactor; Organic Solvent Recovery |
93-2-2 | Methanol Profitability: History and Outlook |
93-2-1 | Natural Detergent Alcohols by a Vapor-Phase Ester Hydrogenation Process |
93-1-4 | Ammonia from Natural Gas |
93-1-3 | The Economic Viability of Using Membranes in Chemical Processes Involving Hydrogen Transport |
93-1-2 | Quick Estimates of Production Costs |
93-1-1 | Pyromellitic Dianhydride |
92-3-4 | Cumene by a Catalytic Distillation Process |
92-3-3 | Methyl Chloride Manufacture |
92-3-2 | Purification of Wet Process Phosphoric Acid by a Solvent Extraction Process |
92-3-1 | Isobutene from Isobutane by Snamprogetti/Yarsintez Dehydrogenation Process |
92-2-4 | Dimethyl-2,6-naphthalenedicarboxylate from o-Xylene by Amoco Technology |
92-2-3 | N-(1,3-Dimethylbutl)-Ni-Phenyl-P-Phenylenediamine Via a Novel 4-Nitrodiphenylamine AND 4-Nitrosodiphenylamine |
92-2-2 | C4 Olefins Utilization |
92-2-1 | Melamine By the Melamine Chemicals M-II Process |
92-1-4 | Degradable High Molecular Weight Polymers and Copolymers from Lactic Acid |
92-1-3 | Mobil Diisopropyl Ether Process |
92-1-2 | Microbial Insecticides: BacillusThuringiensis |
92-1-1 | Coproduction of Dimethyl Carbonate and Ethylene Glycol by Transesterification |
91-3-4 | Styrene from Ethylbenzene Using Membrane Reactors |
91-3-3 | Acrylamide by Enzymatic Hydration of Acrylonitrile (third generation) |
91-3-2 | Methanol from Natural Gas by ICI's LCM Process |
91-3-1 | Polycarbonates From Bisphenol Compounds Via Cyclic Oligomers By GE Plastics Technlogy |
91-2-4 | Isobutene Production by Isomerization Of N-Butene |
91-2-3 | Polypropylene By a Vertical Stirred-Bed Process (BASF Technology) |
91-2-2 | Carbon Monoxide-Ethylene Copolymers |
91-2-1 | Dihydroxybenzenes From Phenol By Vapor-Phase Hydroxolation |
91-1-4 | Removal of Mercury From Ethylene Plant Feedstocks and Cracked Gas Streams |
91-1-3 | Catalytica Acetaldehyde Process |
91-1-2 | DIMETHYL CARBONATE BY VAPOR-PHASE OXIDATIVE CARBONYLATION |
91-1-1 | Isobutane Dehydrogenation by Thermal Cracking |
90-3-4 | Low Pressure Oxo Process with Liquid Recycle |
90-3-3 | Syngas by the Partial Oxidation of Natural Gas |
90-3-2 | Isophorone Diisocyanate by a Nonphosgenation Process |
90-3-1 | Polyethylene Terephthalate Recycle by Depolymerization |
90-2-4 | Linear Alkylbenzene by Heterogeneous Catalysis |
90-2-3 | The SDS Polystyrene Process |
90-2-2 | Urea by UTI's Heat Recycle Process |
90-2-1 | Tetrahydrofuran from Maleic Acid (Du Pont Process) |
90-1-4 | Sucralose - A High Intensity, Noncaloric Sweetener |
90-1-3 | Acetonitrile Recovery in Acrylonitrile Manufacture |
90-1-2 | Hydrogen Peroxide by the ARCO Process |
89-3-3 | Options for Procuring Oxygen |
89-3-2R | 95% Nitrogen from Air by Vacuum Pressure Swing Adsorption |
90-1-1 | Propylene Oxide by the Olin Process |
89-3-4 | The Nitto Chemical Methylamines Process |
89-3-1 | Methanol from Natural Gas by the Lurgi Combined Reformining Process |
89-2-4 | Nonmanufacturing Overhead Spending in the Chemicals Industry |
89-2-3 | Acetal Copolymers by an Asahi Chemical Process |
89-2-2 | Nylon 12,12 Resin from Butadiene by Du Pont Technology |
89-2-1 | Review of Trends in the PEP Plant Construction Cost Indices and Location Factors |
89-1-4 | Xylenes Isomerization |
89-1-3 | Ammonia From Natural Gas by ICI "LCA" Process |
89-1-2 | Petrochemicals Price Behavior |
89-1-1 | New Methyl Methacrylate Process Via Acetone Cyanohydrin |
88-3-4 | Acetic Acid by Low Pressure Carbonylation of Methanol with a Supported Rhodium Catalyst |
88-3-3 | Vinyl Chloride from EDC Pyrolysis by Tosoh Technology |
88-3-2 | ETBE Versus MTBE |
88-3-1 | Applications and Opportunities in Ceramic Coatings |
88-2-4 | Acrylonitrile from Propane by New BP/SOHIO Patented Process |
88-2-3 | Methanol from Natural Gas by BNL Low Temperature Catalyzed Synthesis |
88-2-2 | UOP Styrene Process |
88-2-1 | Recovery of Sulfur and Hydrogen from Hydrogen Sulfide by Idemitsu's Hybrid Process |
88-1-4 | Isobutylene, High-Purity, by Phenol Alkylation |
88-1-3 | Nylon 4,6 |
88-1-2 | Alkylbenzene, Linear, Using HF Catalyst |
88-1-1 | Hydrogen Sulfide Removal/Unisulf Process |
87-3-4 | Methyl Methacrylate from Ethylene |
87-3-3 | Cyclohexanol from Benzene by Asahi Chemical Process |
87-3-2 | Caprolactam Process (Modified) by Montedipe Technology |
87-3-1 | MTBE from Butadiene Rich Mixed C4s |
87-2-4 | Methyl Formate by Dehydrogenation of Methanol |
87-2-3 | Methyl Ethyl Ketone by Oxidation of n-Butenes |
87-2-2 | Piperidine from Furfural by Mitsubishi Technology |
87-2-1 | Hydrogen Peroxide from H2 and Oxygen, DuPont |
87-1-4 | Dimethyl Carbonate from Methanol |
87-1-3 | Naphtha Etherification |
87-1-2 | Ethylene from Ethane by Oxydehydrogenation |
87-1-1 | Chlorine from Hydrogen Chloride by Oxidation |
86-3-4 | m-Aminophenol from Resorcinol by Amination |
86-3-3 | Methanol from Natural Gas with Entrained Catalyst System |
86-3-2 | Poly(Proypylene Carbonates) |
86-3-1 | 1,4-Butanediol from Allyl Alcohol |
86-2-4 | Polyphosphazenes |
86-2-3 | 2,6-Xylenol and o-Cresol from Phenol |
86-2-2 | Sulfuric Acid from Phosphogypsum, DMC-FIPR Process |
86-2-1 | Allyl Alcohol from Propylene, Showa Denko |
86-1-4 | Isononyl Alcohols by Hydroformylation |
86-1-3 | Polymers, Specialty, R&D Trends |
86-1-2 | p-Xylene Separation, CCCC Process |
86-1-1 | Nitrogen from Air by Pressure Swing Adsorption |
85-3-4 | Polyvinyl Chloride by a Continuous Suspension Process |
85-3-3 | Aromatics from LPG |
85-3-2 | Hydroquinone from Phenol, Zeolite-Catalyzed |
85-3-1 | Tetramethylene Diamine for Nylon 4,6 |
85-2-4 | Ethanol from Natural Gas |
85-2-3 | Molecular Sieve Drying of 190 Proof Ethanol |
85-2-2 | Ethylene by the Oxidative Dehydrogenation of Ethane |
85-2-1 | Propylene from Ethylene by Disproportionation |
85-1-4 | Dow/Union Carbide Process for Mixed Alcohols from Syngas |
85-1-3 | Fiber S, a Novel Polyamide Blend with the Feel of Cotton |
85-1-2 | Acrylic Acid Based Superabsorbent Polymer |
85-1-1 | Trimellitic Anhydride From m-Xylene |
84-3-4 | C5-C6 Isomerization |
84-3-3 | Dimerization of Ethylene to Butene-1 |
84-3-2 | Enriched Air by a Membrane Process |
84-3-1 | A Process for Making Polyethylene Polyamines |
84-2-4 | Acrylamide by Enzymatic Hydration of Acrylonitrile |
84-2-3 | Hydrogen Peroxide by Cathodic Reduction of Oxygen |
84-2-2 | Secondary Butyl Alcohol via Direct Hydration |
84-2-1 | Lurgi Isothermal Styrene Process |
84-1-4 | Cumene by Combined Reaction/Distillation |
84-1-3 | Hydrogen by Methanol Decomposition |
84-1-2 | Adipic Acid via Butadiene Carbonylation |
84-1-1 | Carbon Black by the Oil-Furnace Process, with Oxygen as the Oxidant Gas |
83-3-4 | Direct Process for Ethylene Glycol from Syngas |
83-3-3 | Ethylene Glycol from Formaldehyde via Glycolaldehyde |
83-3-2 | Chlorinated Polyethylene |
83-3-1 | Tetrahydrofuran and 1,4-Butanediol from Acetylene and Formaldehyde |
83-2-4 | Tetramethylxylylene Diisocyanate by American Cyanamid Technology |
83-2-3 | Group-Transfer Polymerization Applications |
83-2-2 | New Nonphosgenation Process for MDI by Asahi Chemical Industry |
83-2-1 | Ammonia from ICI's Low Pressure "AMV" Process |
83-1-4 | Recovery of Hydrogen Chloride |
83-1-3 | Sodium Nitrilotriacetate |
83-1-2 | p-Cresol from p-Toluenesulfonic Acid |
83-1-1 | para-Xylene from Toluene and Methanol |
82-3-3 | Concentrated Nitric Acid (Espindesa Technology) |
82-3-2 | Urea Granulation by the Fluid Bed Process (NSM Technology) |
82-3-1 | Urea by The Isobaric Double Recycle Process |
82-2-3 | Anthraquinone from Toluene |
82-2-2 | 1,4-Butanediol and Tetrahydrofuran from Butadiene |
82-2-1 | Ethylene from Methane-Chlorine Reaction System |
82-1-3 | Ethylene from Hydrocracked Vacuum Gas Oil Produced by the Linde AG Process |
82-1-2 | Ethylene from Hydrocracked Vacuum Gas Oil Produced by the Unicracking/FPP |
82-1-1 | Bisphenol A from Phenol and Acetone With an Ion Exchange Resin Catalyst—Union Carbide Technology |
81-3-3 | Synthetic Zeolites in Commercial Applicaitons |
81-3-2 | Styrene from Toluene |
81-3-1 | Recent Trends in the PEP Plant Construction Cost Indices and Location |
81-2-3 | Gasoline from Natural Gas via Methanol/Mobil |
81-2-2 | Polypropylene, El Paso Process Using Mitsui/Montedison Catalyst |
81-2-1 | Ethylene Glycol via Oxalate Esters |
81-1-3 | Caprolactam vis SNIA Viscosa Process |
81-1-2 | Methyl Isobutyl Ketone by Direct Condensation of Acetone |
81-1-1 | Caustic Soda from Trona Caustization Process |
80-3-3 | 1,4-Butanediol by Electrochemical Synthesis |
80-3-2 | Ethylene from Synthesis Gas |
80-3-1 | Chemicals via Butylene Oxides by Hydroperoxide Process |
80-2-3 | Propylene from Propane by Catalytic Dehydrogenation |
80-2-2 | Phenol from Toluene, Coproduct Formaldehyde |
80-2-1 | Phenol from Ethylbenzene, Coproduct VA |
80-1-4 | PMPPI from Nitrobenzene by Carbonylation |
80-1-3 | Ethylene by Methanol Homologation |
80-1-2 | Recycle C4s for Ethylene Production |
80-1-1 | Supplementary LPG Feed for Naphtha Crackers |
79-3-4 | Ethylene from Ethanol |
79-3-3 | p-Methylstyrene |
79-3-2 | Ethylene from Methanol |
79-3-1 | Olefins, Light, from Ethylene |
79-2-4 | Methyl Methacrylate from Isobutylene |
79-2-3 | p-Xylene from Non-aromatics |
79-2-2 | Phosgene |
79-2-1 | Ethylene Glycol via Ethylene Carbonate |
79-1-4 | Methyl Methacrylate from Allyl Acetate |
79-1-3 | PMPPI and MDI from Nitrobenzene |
79-1-2 | MTBE from n-Butane |
79-1-1 | Polyethylene, High Density, Gas Phase Process |
78-3-4 | Acetic Acid, Low Pressure Carbonylation of Methanol |
78-3-3 | Butene-1 from MTBE Plant Raffinate |
78-3-2 | Isomerization of n-Butenes in MTBE Manufacture |
78-3-1 | Methyl Methacrylate from Ethylene |
78-2-4 | Methyl Methacrylate from t-Butanol |
78-2-3 | HMDA by Electrolytic Dimerization of Acrylonitrile |
78-2-2 | Anthraquinone from Naphthalene |
78-2-1 | Ethylene Glycol via Oxalate Esters |
78-1-4 | Synthesis Gas Costs |
78-1-3 | Methyl Tertiary-Butyl Ether |
78-1-2 | Nitrobenzene by Adiabatic Nitration |
78-1-1 | Ethylene from Crude Oil, UCC/Kureha/Chiyoda |
77-3-4 | Propylene Glycol |
77-3-3 | Ethylene from atmospheric Gas Oil |
77-3-2 | Vinyl Acetate, Carbonylation of Methyl Acetate |
77-3-1 | Polyethylene, Low Density, Union Carbide Process |
77-2-5 | Polymeric Polyisocyanates (PMPPI) or Polymeric MDI by Carbonylation Process |
77-2-4 | Terephthalic Acid (Medium Purity) from p-Xylene |
77-2-3 | Toluene Diisocyanate by Carbonylation Process via Urethane |
77-2-2 | Ethylene from Naphtha, Millisecond Cracking |
77-2-1 | Maleic Anhydride from Butene, Benzene, Butane |
77-1-4 | Styrene from Butadiene |
77-1-2 | Styrene Economics |
77-1-1 | Propylene Oxide from Propylene Glycol Monoacetate |
76-3-5 | Propylene Oxide by Perpropionic Acid Epoxidation |
76-3-4 | Hydrogen Cyanide from Methanol |
76-3-3 | Ethylene from Carbon Monoxide and Hydrogen |
76-3-2 | An Inorganic Process for Making Hydrogen Peroxide |
76-3-1 | Acetic Anhydride from Dimethyl Ether or Methyl Acetate |
76-2-4 | Phenol by Direct Oxidation of Benzene |
76-2-3 | Terephthalic Acid from Toluene via Dipotassium Terephthalate |
76-2-1 | Methyl Methacrylate from Isobutylene via Methacrylic Acid |
76-1-4 | Uranium Recovery from Wet Process Phosphoric Acid |
76-1-3 | Styrene from Toluene and Ethylene via Stilbene |
76-1-2 | Fluorocarbon Turbines |
76-1-1 | Methyl Tertiary-Butyl Ether |
75-3-4 | Chlorinated Polyvinyl Chloride |
75-3-3 | Acetic Acid from Carbon Monoxide and Hydrogen |
75-3-2 | Power Costs for Chemical Companies Operating in the Houston, Texas Area |
75-3-1 | Economics of Alternative Olefin Feedstocks |
75-2-4 | Ethylene Oxide Update |
75-2-3 | The PEP Construction Cost Index |
75-2-2 | Outlook for Ammonia Industry |
75-2-1 | Maleic Anhydride From Normal &s or Benzene |
75-1-5 | Ethylene By Hydrocracking |
75-1-4 | Plastic Bottles for Carbonated Beverages Polyester Versus Nitrile |
75-1-3 | Recovery of By-Product Maleic Anhydride in Phthalic Anhydride Plants |
75-1-2 | Closed Cycle Thermal Reactions Compared with Electrolysis for the Production of Hydrogen |
75-1-1 | Ion-Exchange Membrane Cells for Electrolysis of Sodium Chloride |
X-3-4 | Energy Demand, U.S. Chemical Industry |
X-3-3 | Ethylene Glycol via Glycol Esters |
X-3-2 | Hydrogen Cyanide |
X-3-1 | Maleic Anhydride from Butene or Benzene |
X-2-C | Ethane Recovery from Natural Gas |
X-2-A | Aromatics BTX, Value |
X-2-4 | Detergent Alcohols Outlook |
X-2-2 | Ethylene Glycol from Synthesis Gas |
X-1-5 | Vapor Recompression |
X-1-4 | Styrene-Aniline Cooproduction |
X-1-3 | Environmental Regulations |
X-1-2 | Polypropylene |
X-1-1 | Ethylene and Coproducts, Value |
IX-3-5 | Terephthalic Acid from p-Xylene, Description of Maruzen Process |
IX-3-4 | Toluene Steam Dealkylation |
IX-3-3 | Ethylene Glycol from Synthesis Gas |
IX-3-2 | Ethylene from Natural Gas |
IX-3-1 | Synthesis Gas from Natural Gas or Coal |
IX-2-5 | Formaldehyde from Natural Gas |
IX-2-4 | Ethylene Glycols, Direct Oxidation |
IX-2-3 | Hydroquinone Processes |
IX-2-2 | Aromatics Extraction |
IX-2-1 | Trimellitic Anhydride from Pseudocumene |
IX-1-6 | PolyvinylChloride, Vapor Phase Bulk Polymerization |
IX-1-5 | Aniline, Amination of Benzene |
IX-1-4 | Terephthalic Acid from p-Xylene through Terephthalonitrile |
IX-1-3 | Improvement on the Manufacture of Ethylene Oxide By Using a New Silver Catalyst |
IX-1-2 | Methanol from Non-Hydrocarbon Sources |
IX-1-1 | Cost of Utilities |
Report Number | Report Name |
---|---|
CR001 | Wide Range Linear Alpha Olefin Processes |
CR002 | On-Purpose Linear Alpha Olefin Processes |
CR003 | Propylene Oxide |
CR004 | Oxo Alcohols |
CR005 | On-Purpose Acetic Acid |
CR006 | Polypropylene Impact Copolymer |
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