| Report Number | Report Name |
| | |
| 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 Technolog y |
| 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 |
| 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 |
| 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 |
