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- Analysis
- Dimethyl Ether Production from Methanol
- Dimethyl Ether Production from Natural Gas
- Dimethyl Ether Production from Wood Chips
- Dimethyl Ether Production from Synthesis Gas (Indirect Method)
- Dimethyl Ether Production from Synthesis Gas (Direct Method)
- Dimethyl Ether Production from Natural Gas & CO2 (Indirect Method)
- Dimethyl Ether Production from Natural Gas & CO2 (Direct Method)
- Acrolein Production
- Bimodal HDPE from Ethylene and 1-Butene (Similar to Spherilene)
- Polypropylene Nonwoven Production
- Sodium Hydroxide from Sodium Chloride (HCl as Co-Product)
- Hydrochloric Acid Production from Hydrogen and Chlorine
- Hydrochloric Acid from Sodium Chloride (Sodium Hydroxide as Co-Product)
- PP Homopolymer from Propane (CATOFIN PDH / Novolen PP)
- PP Homopolymer from Propane (CATOFIN PDH / Spheripol PP)
- PP Homopolymer from Propane (Oleflex PDH / Spheripol PP)
- PP Homopolymer from Propane (Oleflex PDH / UNIPOL PP)
- PP Homopolymer from Propane (STAR PDH / Spheripol PP)
- Emulsion Styrene Butadiene Rubber from Styrene and Butane
- Solution Styrene Butadiene Rubber from Styrene and Butane
- Phosphoric Acid from Phosphate Rock (Dihydrate Wet Process)
- Phosphoric Acid from Phosphate Rock (Hemihydrate Wet Process)
- Phosphoric Acid from Phosphorus
- Phosphoric Acid from Phosphate Rock (Thermal Process)
- Phosphoric Acid from Phosphate Rock (Hydrochloric Acid Route)
- Methional Production from Acrolein and Methyl Mercaptan
- Nitrile Gloves Production
- Acetaldehyde Production from Ethylene (Single-Step Process)
- Acetaldehyde Production from Ethanol
- Ultra-Low Sulfur Diesel Production (Hydrotreating Unit)
- Isoprene Production from Propylene
- Very-Low Sulfur Diesel Production (Hydrotreating Unit)
- Ultra-Low Sulfur Diesel Production from Low Sulfur Diesel (S Zorb)
- Carbon Black Production
- Food-Grade Riboflavin Production
- Granulated Urea Production from Natural Gas (CO2 Stripping Process)
- 2-Ethylhexanoic Acid Production from Butyraldehyde
- Bimodal HDPE from Ethylene and 1-Octene (Similar to Spherilene)
- Diammonium Phosphate from Phosphate Rock, Sulfuric Acid and Ammonia
- Diammonium Phosphate from Phosphate Rock, Sulfur and Ammonia
- Solid Aluminum Chlorohydrate Production
- Synthetic Rutile Production from Ilmenite (Benelite Process)
- Synthetic Rutile Production from Leucoxene (Becher Process)
- Titanium Dioxide Production from Ilmenite (Chloride Process)
- Titanium Dioxide Production from Titanium Slag (Sulfate Process)
- Titanium Dioxide Production from Leucoxene (Chloride Process)
- Titanium Tetrachloride Production from Synthetic Rutile
- 11-Aminoundecanoic Acid Production Costs | Q1 2022
- Butadiene Production Costs | Q1 2022
- Butanediol Production Costs | Q1 2022
- 2-Ethylhexanol Production Costs | Q1 2022
- Acetaldehyde Production Costs | Q1 2022
- Acetic Acid Production Costs | Q1 2022
- Acetic Anhydride Production Costs | Q1 2022
- Acetone Production Costs | Q1 2022
- Acrylic Acid Production Costs | Q1 2022
- Acrylonitrile Production Costs | Q1 2022
- Acrylonitrile Butadiene Styrene Production Costs | Q1 2022
- Adipic Acid Production Costs | Q1 2022
- Aluminum Hydroxide Production Costs | Q1 2022
- Aluminum Sulfate Production Costs | Q1 2022
- Ammonia Production Costs | Q1 2022
- Ammonium Nitrate Production Costs | Q1 2022
- Aniline Production Costs | Q1 2022
- Argon Production Costs | Q1 2022
- Benzene Production Costs | Q1 2022
- BPA Production Costs | Q1 2022
- Butanol Production Costs | Q1 2022
- Butyraldehyde Production Costs | Q1 2022
- Caprolactam Production Costs | Q1 2022
- Carbon Black Production Costs | Q1 2022
- Carbon Disulfide Production Costs | Q1 2022
- Carboxymethyl Cellulose Production Costs | Q1 2022
- Chlorine Production Costs | Q1 2022
- Citric Acid Production Costs | Q1 2022
- Cumene Production Costs | Q1 2022
- Cyclohexane Production Costs | Q1 2022
- Cyclohexanone Production Costs | Q1 2022
- Diammonium Phosphate Production Costs | Q1 2022
- Diphenyl Carbonate Production Costs | Q1 2022
- Epichlorohydrin Production Costs | Q1 2022
- Ethanol Production Costs | Q1 2022
- Ethyl Acetate Production Costs | Q1 2022
- Ethyl Tert-Butyl Ether Production Costs | Q1 2022
- Ethylbenzene Production Costs | Q1 2022
- Ethylene Production Costs | Q1 2022
- Ethylene Dichloride Production Costs | Q1 2022
- Ethylene Glycol Production Costs | Q1 2022
- Ethylene Oxide Production Costs | Q1 2022
- Ethylene Vinyl Acetate Production Costs | Q1 2022
- Formaldehyde Production Costs | Q1 2022
- Furfuryl Alcohol Production Costs | Q1 2022
- Hexamethylenediamine Production Costs | Q1 2022
- Hydrogen Production Costs | Q1 2022
- Hydrogen Chloride Production Costs | Q1 2022
- Hydrogen Peroxide Production Costs | Q1 2022
- Isobutanol Production Costs | Q1 2022
- Isoprene Production Costs | Q1 2022
- Isopropyl Alcohol Production Costs | Q1 2022
- Lactic Acid Production Costs | Q1 2022
- Linear Alpha Olefins Production Costs | Q1 2022
- Lysine Production Costs | Q1 2022
- Maleic Anhydride Production Costs | Q1 2022
- Methanol Production Costs | Q1 2022
- Methionine Production Costs | Q1 2022
- Methyl Methacrylate Production Costs | Q1 2022
- MTBE Production Costs | Q1 2022
- Monoethanolamine Production Costs | Q1 2022
- Nitric Acid Production Costs | Q1 2022
- Nitrobenzene Production Costs | Q1 2022
- Nitrogen Production Costs | Q1 2022
- Oxygen Production Costs | Q1 2022
- Phenol Production Costs | Q1 2022
- Phosphoric Acid Production Costs | Q1 2022
- Phthalic Anhydride Production Costs | Q1 2022
- Polybutadiene Production Costs | Q1 2022
- Polybutylene Terephthalate Production Costs | Q1 2022
- Polycarbonate Production Costs | Q1 2022
- Polyethylene Terephthalate Production Costs | Q1 2022
- HDPE Production Costs | Q1 2022
- LLDPE Production Costs | Q1 2022
- LDPE Production Costs | Q1 2022
- Polyisoprene Production Costs | Q1 2022
- Polypropylene Production Costs | Q1 2022
- Polystyrene Production Costs | Q1 2022
- Polyurethane Production Costs | Q1 2022
- Polyvinyl Chloride Production Costs | Q1 2022
- Propylene Production Costs | Q1 2022
- Propylene Glycol Production Costs | Q1 2022
- Propylene Oxide Production Costs | Q1 2022
- Paraxylene Production Costs | Q1 2022
- Salicylic Acid Production Costs | Q1 2022
- Precipitated Silica Production Costs | Q1 2022
- Silicone Production Costs | Q1 2022
- Sodium Hydroxide Production Costs | Q1 2022
- Sodium Hypochlorite Production Costs | Q1 2022
- Styrene Production Costs | Q1 2022
- Styrene Butadiene Rubber Production Costs | Q1 2022
- Styrene Acrylonitrile Resin Production Costs | Q1 2022
- Succinic Acid Production Costs | Q1 2022
- Sulfuric Acid Production Costs | Q1 2022
- Terephthalic Acid Production Costs | Q1 2022
- Tetrahydrofuran Production Costs | Q1 2022
- Toluene Production Costs | Q1 2022
- Urea Production Costs | Q1 2022
- Vinyl Acetate Production Costs | Q1 2022
- Vinyl Chloride Production Costs | Q1 2022
- Toluene Diisocyanate Production Costs | Q1 2022
- Reformate Production Costs | Q1 2022
- Nylon 6 Production Costs | Q1 2022
- Nylon 66 Production Costs | Q1 2022
- Invert Sugar Production Costs | Q1 2022
- Polylactic Acid Production Costs | Q1 2022
- FDCA Production Costs | Q1 2022
- Polychloroprene Production Costs | Q1 2022
- Nitrile Rubber Production Costs | Q1 2022
- Phosgene Production Costs | Q1 2022
- MDI Production Costs | Q1 2022
- Cefalotin Production Costs | Q1 2022
- Butene Production Costs | Q1 2022
- Polyethylene Furanoate Production Costs | Q1 2022
- 3-Hydroxypropionic Acid Production Costs | Q1 2022
- Isosorbide Production Costs | Q1 2022
- NPK Fertilizer Production Costs | Q1 2022
- Polybutylene Succinate Production Costs | Q1 2022
- Propanediol Production Costs | Q1 2022
- Polytrimethylene Terephthalate Production Costs | Q1 2022
- Allyl Alcohol Production Costs | Q1 2022
- Syngas Production Costs | Q1 2022
- Acetylene Production Costs | Q1 2022
- Biodiesel Production Costs | Q1 2022
- Diesel Production Costs | Q1 2022
- Hydrogen Cyanide Production Costs | Q1 2022
- Dinitrotoluene Production Costs | Q1 2022
- Toluenediamine Production Costs | Q1 2022
- Dimethyl Carbonate Production Costs | Q1 2022
- Hexamethylene Diisocyanate Production Costs | Q1 2022
- IPDI Production Costs | Q1 2022
- Polyacrylonitrile Production Costs | Q1 2022
- Carbon Fiber Production Costs | Q1 2022
- Polypropylene Carbonate Production Costs | Q1 2022
- Hydroxypropyl Methyl Cellulose Production Costs | Q1 2022
- Acrylic Maleic Copolymer Production Costs | Q1 2022
- Carrageenan Production Costs | Q1 2022
- Polyether Production Costs | Q1 2022
- Glycerol Production Costs | Q1 2022
- 2-Propylheptanol Production Costs | Q1 2022
- Isononanol Production Costs | Q1 2022
- Isodecanol Production Costs | Q1 2022
- Octene Production Costs | Q1 2022
- Allyl Chloride Production Costs | Q1 2022
- Epoxy Resins Production Costs | Q1 2022
- Hexene Production Costs | Q1 2022
- m-Xylene Production Costs | Q1 2022
- Titanium Dioxide Production Costs | Q1 2022
- Propanol Production Costs | Q1 2022
- Polyalphaolefin Production Costs | Q1 2022
- Siloxanes Production Costs | Q1 2022
- Chlorosilanes Production Costs | Q1 2022
- Methyl Chloride Production Costs | Q1 2022
- Allyl PEG Production Costs | Q1 2022
- Phenol-Formaldehyde Resins Production Costs | Q1 2022
- Urea Formaldehyde Resins Production Costs | Q1 2022
- Melamine Resin Production Costs | Q1 2022
- Polyoxymethylene Production Costs | Q1 2022
- Neopentyl Glycol Production Costs | Q1 2022
- Pentaerythritol Production Costs | Q1 2022
- Trimethylolpropane Production Costs | Q1 2022
- PVDC Resins Production Costs | Q1 2022
- TBBPA Production Costs | Q1 2022
- Sodium Chlorate Production Costs | Q1 2022
- Chlorine Dioxide Production Costs | Q1 2022
- Sodium Chlorite Production Costs | Q1 2022
- Calcium Hypochlorite Production Costs | Q1 2022
- Isophthalic Acid Production Costs | Q1 2022
- Dicyclopentadiene Production Costs | Q1 2022
- Methacrylic Acid Production Costs | Q1 2022
- Aromatics BTX Production Costs | Q1 2022
- Unsaturated Polyester Resin Production Costs | Q1 2022
- Sodium Polyacrylate Production Costs | Q1 2022
- Carbon Monoxide Production Costs | Q1 2022
- Isobutylene Production Costs | Q1 2022
- Tanespimycin Production Costs | Q1 2022
- Sodium Pyruvate Production Costs | Q1 2022
- Riboflavin Production Costs | Q1 2022
- Alpha-Cyclodextrin Production Costs | Q1 2022
- Methyl Acrylate Production Costs | Q1 2022
- Ethyl Acrylate Production Costs | Q1 2022
- Nicotinamide Production Costs | Q1 2022
- Dimethyl Terephthalate Production Costs | Q1 2022
- Oxalic Acid Production Costs | Q1 2022
- Chloroprene Production Costs | Q1 2022
- Calcium Carbonate Production Costs | Q1 2022
- Sodium Lauryl Sulfate Production Costs | Q1 2022
- TEA-Lauryl Sulfate Production Costs | Q1 2022
- Ammonium Lauryl Sulfate Production Costs | Q1 2022
- Sodium Lauryl Ether Sulfate Production Costs | Q1 2022
- Trichlorfon Production Costs | Q1 2022
- Dichlorvos Production Costs | Q1 2022
- Azodicarbonamide Production Costs | Q1 2022
- Hexane Production Costs | Q1 2022
- Calcium Carbide Production Costs | Q1 2022
- Phenthoate Production Costs | Q1 2022
- EPDM Rubber Production Costs | Q1 2022
- Linear Alkylbenzene Production Costs | Q1 2022
- Tricalcium Phosphate Production Costs | Q1 2022
- Rifampicin Production Costs | Q1 2022
- Amoxicillin Production Costs | Q1 2022
- Pyrantel Pamoate Production Costs | Q1 2022
- Gasoline Production Costs | Q1 2022
- NP Fertilizer Production Costs | Q1 2022
- Calcium Ammonium Nitrate Production Costs | Q1 2022
- Linear Alkylbenzene Sulfonate Production Costs | Q1 2022
- Activated Carbon Production Costs | Q1 2022
- Aluminum Chloride Production Costs | Q1 2022
- DMF Production Costs | Q1 2022
- Caffeine Production Costs | Q1 2022
- 2-Ethylhexyl Acrylate Production Costs | Q1 2022
- Ammonium Chloride Production Costs | Q1 2022
- Barium Chloride Production Costs | Q1 2022
- Dibutyl Ketone Production Costs | Q1 2022
- Hydroxymethylfurfural Production Costs | Q1 2022
- Barium Nitrate Production Costs | Q1 2022
- Bronopol Production Costs | Q1 2022
- Titanium Butoxide Production Costs | Q1 2022
- Calcium Gluconate Production Costs | Q1 2022
- Propionic Acid Production Costs | Q1 2022
- Calcium Sulfate Production Costs | Q1 2022
- Chromium Oxide Production Costs | Q1 2022
- Copper II Sulfate Production Costs | Q1 2022
- Diethyl Sulfate Production Costs | Q1 2022
- Magnesium Sulfate Production Costs | Q1 2022
- Paracetamol Production Costs | Q1 2022
- Phenethyl Alcohol Production Costs | Q1 2022
- Polyaluminum Chloride Production Costs | Q1 2022
- Potassium Chlorate Production Costs | Q1 2022
- Potassium Iodide Production Costs | Q1 2022
- Sebacic Acid Production Costs | Q1 2022
- Silica Gel Production Costs | Q1 2022
- Sulfur Hexafluoride Production Costs | Q1 2022
- Thiram Production Costs | Q1 2022
- Ziram Production Costs | Q1 2022
- Itaconic Acid Production Costs | Q1 2022
- Methyl Ester Sulfonate Production Costs | Q1 2022
- Polyhydroxybutyrate Production Costs | Q1 2022
- Laurolactam Production Costs | Q1 2022
- Butyl Acrylate Production Costs | Q1 2022
- Acrolein Production Costs | Q1 2022
- Methional Production Costs | Q1 2022
- Sodium Cyanide Production Costs | Q1 2022
- Adiponitrile Production Costs | Q1 2022
- Valeraldehyde Production Costs | Q1 2022
- KA Oil Production Costs | Q1 2022
- Lactide Production Costs | Q1 2022
- Cyclododecanol Production Costs | Q1 2022
- Cyclododecanone Production Costs | Q1 2022
- Isobutane Production Costs | Q1 2022
- Propionaldehyde Production Costs | Q1 2022
- p-Nitrophenol Production Costs | Q1 2022
- Glucose Production Costs | Q1 2022
- Succinic Anhydride Production Costs | Q1 2022
- Nonwoven Production Costs | Q1 2022
- Dimethyl Ether Production Costs | Q1 2022
- Nitrile Gloves Production Costs | Q1 2022
- Rutile Production Costs | Q1 2022
- Titanium Tetrachloride Production Costs | Q1 2022
- NPK Fertilizer Production (Odda Process)
- Phosphoric Acid from Phosphate Rock (Hemidihydrate Wet Process)
- Ethylidene Norbornene Production Costs | Q1 2022
- Ethylidene Norbornene Production
- Isopropyl Alcohol Production from Propane
- Ethanol Production from Municipal Solid Waste (Gasification)
- Acetylene Production from Calcium Carbide
- Acetylene Production from Naphtha | Acetylene E41A
- Calcium Carbide from Limestone (Oxy-Thermal Process)
- Carbon Disulfide Production
- Syngas Production from Coal (H2/CO Ratio of 2)
- Ethylene Production from HDPE Waste
- Ethylene from PVC-Rich Mixed Plastic Waste
- Ethylene from PVC-Poor Mixed Plastic Waste
- Gasoline Production from Mixed Plastic Waste
- Hydrogen Chloride Production from Polyvinyl Chloride Waste
- Methanol Production from Refuse-Derived Fuels
- Methanol Production from Coal
- Styrene Production from Polystyrene Waste
- Syngas Production from Mixed Plastic Waste
- Acetylene Production from Naphtha
- 2-Propylheptanol Production from Valeraldehyde
- Acrylic Acid Production from 3-Hydroxypropionic Acid
- Adipic Acid Production from KA Oil
- Caprolactam Production from Cyclohexanone
- Chlorine Dioxide from Sodium Chlorate (Hydrochloric Acid Process)
- Cyclododecanol Production
- Cyclododecanone Production
- Cyclohexanone Production from Cyclohexane
- Cyclohexanone Production from Phenol
- Glucose Syrup Production
- Isobutane Production
- KA Oil Production
- Lactide Production
- Laurolactam Production from Cyclododecanone
- Methyl Methacrylate Production from Methacrylic Acid and Methanol
- Propionic Acid Production from Propionaldehyde
- Polyaluminum Chloride Solution from Alumina and Hydrochloric Acid
- Polyaluminum Chloride Powder Production
- Liquid Aluminum Chlorohydrate Production
- Paracetamol Production from p-Nitrophenol
- Polylactic Acid Production from Lactide
- p-Nitrophenol Production
- Propionaldehyde Production
- Succinic Acid Production from Succinic Anhydride
- Succinic Anhydride Production
- Valeraldehyde Production
- Aluminum Hydroxide Production from Bauxite
- Ethanol from Wood Chips (Gasification and Mixed Alcohols Synthesis)
- Styrene Production from Ethylene & Benzene
- Toluene Production from Reformate
- Toluene Production from Pygas
- 2-Ethylhexanol Production from Propylene and Syngas
- 2-Ethylhexanol Production from Butyraldehyde
- 2-Ethylhexyl Acrylate Production
- 2-Propylheptanol Production from Butenes and Syngas
- 3-Hydroxypropionic Acid Production from Glucose
- 3-Hydroxypropionic Acid Production from Raw Sugar
- ABS from Butadiene, Acrylonitrile and Styrene (Emulsion Process)
- ABS from Polybutadiene, Acrylonitrile and Styrene (Mass Process)
- ABS from Butadiene, Acrylonitrile and Styrene (Hybrid Process)
- Acetaldehyde Production from Ethylene (Two-Step Process)
- Acetaldehyde Production from Acetic Acid
- Acetaldehyde Production from Acetylene (Liquid-Phase Hydration)
- Acetaldehyde Production from Acetylene (Vapor-Phase Hydration)
- Acetic Acid Production from Acetaldehyde
- Acetic Acid Production from Methanol
- Acetic Acid Production from Ethane
- Acetic Acid Production from Butane
- Acetic Anhydride Production from Acetic Acid
- Acetic Anhydride Production from Acetic Acid and Acetone
- Acetone Production from Propylene (Two-Step Process)
- Acetone Production from Propylene (Single-Step Process)
- Acetone Production from Isopropanol
- Acetylene Production from Natural Gas (Partial Combustion Process)
- Acetylene Production from Natural Gas (Electric Arc Process)
- Acetylene Production from Coal and Lime
- Acrylic Acid Production from Propylene
- Acrylic Acid Production from Glycerol
- Bio-Acrylic Acid Production from Glucose (Single-Step Process)
- Bio-Acrylic Acid Production from Glucose (Two-Step Process)
- Bio-Acrylic Acid Production from Raw Sugar (Single-Step Process)
- Bio-Acrylic Acid Production from Raw Sugar (Two-Step Process)
- Glacial Acrylic Acid from Crude Acrylic Acid (Crystallization)
- Glacial Acrylic Acid from Crude Acrylic Acid (Distillation)
- Acrylic Acid Production from Acetylene
- Acrylic Acid Production from Ethylene Oxide
- Acrylic Acid Production from Natural Gas
- Acrylic Acid Production from Propane
- Acrylonitrile Production from Propylene (Fluidized Bed Ammoxidation)
- Acrylonitrile Production from Propylene (Fixed Bed Ammoxidation)
- Acrylonitrile Production from Propane
- Activated Carbon Production from Coconut Shell (Steam Activation)
- Activated Carbon Production from Coal
- Adipic Acid Production from Cyclohexane
- Bio-Adipic Acid Production from Glucose (Chemical Catalytic Process)
- Bio-Adipic Acid Production from Glucose (Fermentation Process)
- Bio-Adipic Acid Production from Raw Sugar
- Adipic Acid Production from Benzene (Cyclohexane Intermediate)
- Adipic Acid Production from Benzene (Cyclohexene Intermediate)
- Adipic Acid Production from Phenol
- Adipic Acid Production from Benzene and Propylene
- Fiber-Grade Adipic Acid Production from Crude Adipic Acid
- Adiponitrile Production from Butadiene and HCN
- Adiponitrile Production from Adipic Acid and Ammonia
- Adiponitrile Production from Acrylonitrile
- Allyl Alcohol Production
- Allyl Chloride Production
- Allyl Polyethylene Glycol Production
- Alpha-Cyclodextrin Production from Corn (Chemical Precipitation)
- Alpha-Cyclodextrin Production from Corn (Adsorption)
- Ammonium Lauryl Sulfate Production
- Aluminum Chloride Production
- Aluminum Hydroxide from Aluminum Sulfate and Soda Ash
- Aluminum Sulfate Production
- Acrylic/Maleic Copolymer Production
- Ammonia Production from Syngas
- Ammonia Production from Natural Gas (Combined Reforming)
- Ammonia Production from Natural Gas (Chemical Looping Process)
- Ammonia Production from Coal
- Ammonia Production from Heavy Oil
- Ammonium Chloride Production
- Ammonium Nitrate Solution Production
- Ammonium Nitrate Porous Prills Production
- Granulated Ammonium Nitrate Production
- Amoxicillin Production
- Aniline Production from Nitrobenzene (Vapor-Phase Hydrogenation)
- Aniline Production from Nitrobenzene (Liquid-Phase Hydrogenation)
- Aniline Production from Benzene
- Aniline Production from Phenol
- Argon Production
- 11-Aminoundecanoic Acid Production
- Azodicarbonamide Production
- Barium Chloride Production
- Barium Nitrate Production
- Benzene Production from Pygas (Extractive Distillation Process)
- Benzene Production from Pygas (Hydrodealkylation Process)
- Benzene Production from Pygas (Liquid-Liquid Extraction Process)
- Benzene Production from Reformate
- Benzene from Toluene (Selective Toluene Disproportionation)
- Benzene from Toluene (Hydrodealkylation with Methane Production)
- Benzene from Toluene (Conventional Toluene Disproportionation)
- Benzene from Toluene (Hydrodealkylation)
- Benzene Production from Light Oil
- Benzene Production from Naphtha
- Benzene Production from Toluene & Heavy Aromatics
- Biodiesel from Soybean Oil (Alkaline Catalyst)
- Biodiesel from Soybean Oil (Alkaline Catalyst in Multistage Process)
- Biodiesel from Soybean Oil (Heterogeneous Catalyst)
- Biodiesel from Soybean Oil (Alkaline Catalyst / Glycerol Purification)
- Biodiesel from Soybean Oil (Heterogeneous Catalyst / Glycerol Purification)
- Biodiesel from Soybean Oil (Supercritical Process)
- Biodiesel from Soybean Oil (Catalytic Distillation)
- Biodiesel Production from Algae
- BPA from Acetone and Phenol (Hydrogen Chloride Catalyst)
- BPA from Acetone and Phenol (Ion-Exchange Resin Catalyst)
- Polybutadiene Production from Butadiene
- Polybutadiene Production from n-Butane
- Bio-Polybutadiene Production from Glucose
- Bio-Polybutadiene Production from Raw Sugar
- Bronopol Production
- Green BTX Production from Wood Chips
- BTX Production from Ethane
- Butadiene Production from n-Butane
- Butadiene Production from Butenes
- Butadiene Production from Ethanol
- Bio-Butadiene Production from Glucose (Aerobic Fermentation)
- Bio-Butadiene Production from Glucose (Anaerobic Fermentation)
- Bio-Butadiene Production from Raw Sugar (Aerobic Fermentation)
- Bio-Butadiene Production from Raw Sugar (Anaerobic Fermentation)
- Butadiene from Crude C4s (NMP Extraction)
- Butadiene from Crude C4s (DMF Extraction)
- Butadiene Production from Carbon Monoxide
- Bio-Butanediol Production from Glucose (Direct Fermentation)
- Bio-Butanediol from Glucose (Succinic Acid as Intermediate)
- Bio-Butanediol from Glucose (By-Products: THF & Ammonium Sulfate)
- Butanediol Production from Succinic Acid
- Butanediol Production from Acetylene
- Butanediol Production from Propylene
- Butanediol Production from Butadiene
- Butanediol Production from Maleic Anhydride
- Butanediol Production from Propylene Oxide
- Bio-Butanediol Production from Raw Sugar (Direct Fermentation)
- Bio-Butanediol from Raw Sugar (Succinic Acid as Intermediate)
- Butanediol from Raw Sugar (By-Products: THF & Ammonium Sulfate)
- Bio-Butanol Production from Corn
- Butanol Production from Propylene and Syngas
- Butanol Production from Ethanol
- Bio-Butanol Production from Raw Sugar
- Butanol Production from Butyraldehyde
- Butenes Production from Ethylene
- 1-Butene Production from Ethylene
- 1-Butene from Raffinate-2 (Extractive Distillation)
- 1-Butene from Raffinate-2 (Superfractionation)
- 1-Butene from Raffinate-2 (Hydrogenation Followed by Fractionation)
- 1-Butene from Raffinate-2 (Fractionation Followed by Isomerization)
- 1-Butene from Raffinate-2 (Adsorption)
- Butenes Production from Propylene
- Butyl Acrylate Production from Acrylic Acid and Butanol
- Butyl Acrylate Production from Propylene and Butanol
- Butyraldehyde from Propylene and Syngas (N/Iso Ratio of 30:1)
- Butyraldehyde from Propylene and Syngas (N/Iso Ratio of 10:1)
- Butyraldehyde from Propylene and Syngas (N/Iso Ratio of 4:1)
- Caffeine Production
- Calcium Carbide from Limestone (Electrothermic Process)
- Calcium Carbonate Production from Limestone
- Calcium Carbonate Production from Lime and Carbon Dioxide
- Calcium Carbonate Production from Lime and Soda Ash
- Calcium Gluconate Production
- Calcium Hypochlorite from Slaked Lime and Cl2 (Sodium Method)
- Calcium Hypochlorite from Slaked Lime and Cl2 (Calcium Method)
- Calcium Sulfate Production
- Calcium Ammonium Nitrate Production
- Caprolactam Production from Benzene
- Caprolactam Production from Butadiene and Hydrogen Cyanide
- Caprolactam Production from Butadiene, CO, Hydrogen and Ammonia
- Caprolactam from Cyclohexane (Oximation with Hydroxylamine)
- Caprolactam from Cyclohexane (Photonitrozation Process)
- Caprolactam Production from Phenol
- Caprolactam Production from Toluene
- Carbon Fiber Production from PAN Fiber
- Carbon Fiber Production from Pitch
- Carbon Monoxide Production
- Carrageenan Production
- Cefalotin Production
- Chlorine Dioxide from Sodium Chlorate (Sulfuric Acid Process)
- Chlorine Dioxide Production from Chlorine
- Chlorine Production from Sodium Chloride (Membrane Process)
- Chlorine Production from Sodium Chloride (Diaphragm Process)
- Chlorine Production from Sodium Chloride (Mercury Cell Process)
- Chlorine from Gaseous Hydrogen Chloride (Oxidation)
- Chlorine from Aqueous Hydrochloric Acid (Electrolysis)
- Chlorine from Gaseous Hydrogen Chloride (Electrolysis)
- Chloroprene Production from Butadiene
- Chloroprene Production from Acetylene
- Mixed Methylchlorosilanes Production
- Phenylchlorosilanes Production
- Vinylchlorosilanes Production
- Chromium(III) Oxide Production
- Citric Acid Production
- Sodium Carboxymethyl Cellulose Production
- Copper(II) Sulfate Production
- Polychloroprene Production from Chloroprene
- Polychloroprene Production from Butadiene and Chlorine
- Cumene Production from Benzene and PG Propylene
- Cumene from Benzene and RG Propylene (SPA Catalyst)
- Cumene from Benzene and RG Propylene (Additional Transalkylation)
- Cumene from Benzene and RG Propylene (AlCl3 Catalyst)
- Cumene from Benzene and RG Propylene (Zeolite Catalyst)
- Cumene Production from Benzene and CG Propylene
- Cyclohexane from Benzene and Hydrogen (Liquid-Phase Process)
- Cyclohexane from Benzene and Hydrogen (Vapor-Phase Process)
- Diammonium Phosphate from Phosphoric Acid and Ammonia
- Fuel Grade Dibutyl Ketone Production
- Chemical Grade Dibutyl Ketone Production
- Dicyclopentadiene Production
- Dichlorvos Production
- Renewable Diesel from Soybean Oil & Natural Gas
- Renewable Diesel from Soybean Oil & Hydrogen (Naphtha By-Product)
- Renewable Diesel Production from Wood (Gasification Process)
- Renewable Diesel Production from Wood (Fast Pyrolysis Process)
- Diesel from Algae (CO2 Injection and Electromagnetic Radiation)
- Renewable Diesel Production from Corn Stover (Catalytic Process)
- Renewable Diesel Production from Corn Stover (Biological Process)
- Diesel from Algae (Hexane Extraction)
- Renewable Diesel from Soybean Oil & Hydrogen (Propane By-Product)
- Diethyl Sulfate Production
- Dimethyl Carbonate Production from Methanol
- Dimethyl Carbonate Production from Ethylene Carbonate
- Dimethylfuran Production
- Dimethyl Terephthalate from p-Xylene and Methanol
- Dimethyl Terephthalate from Toluene and Methanol
- Dinitrotoluene Production
- Diphenyl Carbonate from Phosgene and Phenol
- Diphenyl Carbonate from Ethylene Oxide and Phenol
- Diphenyl Carbonate from Phenol and Methanol (DMO Intermediate)
- Diphenyl Carbonate from Phenol and Methanol (DMC Intermediate)
- Diphenyl Carbonate Production from Phenol and Carbon Monoxide
- Ethylbenzene from Benzene and Ethylene (Zeolite Catalyst)
- Ethylbenzene from Benzene and Ethylene (CD Process)
- Ethylbenzene from Benzene and Ethylene (AlCl3 Catalyst)
- Epichlorohydrin Production from Allyl Chloride
- Epichlorohydrin from Propylene (Allyl Chloride Intermediate)
- Epichlorohydrin from Propylene (Allyl Alcohol Intermediate)
- Epichlorohydrin Production from Glycerol and Hydrogen Chloride
- Epichlorohydrin Production from Acrolein
- Epichlorohydrin Production from Glycerol and Sodium Chloride
- Ethylene Dichloride from Ethylene and Chlorine (HTC with Distillation)
- Ethylene Dichloride from Ethylene and Chlorine (LTC Process)
- Ethylene Dichloride from Ethylene and Chlorine (HTC with Stripping)
- Ethylene Dichloride Production from Ethylene and HCl
- Ethylene Oxide Production from Ethylene (Pure Oxygen as Oxidizer)
- Ethylene Oxide Production from Ethylene (Air as Oxidizer)
- Ethylene Propylene Rubber Production
- Liquid and Solid Epoxy Resins Production
- Liquid Epoxy Resin Production
- Solid Epoxy Resin Production
- Epoxy Phenol Novolac Resin Production
- Epoxy Cresol Novolac Resin Production
- ETBE Production from Raffinate-1
- ETBE Production from FCC C4 Raffinate
- ETBE Production from Butane
- ETBE Production from Isobutylene
- Cellulosic Ethanol from Corn Stover (Ammonia Conditioning)
- Cellulosic Ethanol from Corn Stover (Overliming)
- Ethanol from Corn Stover (Digestion with SO2-Ethanol-Water Solution)
- Ethanol from Corn Stover (Hemicelluloses Extraction)
- Ethanol Production from Sorghum
- Ethanol from Municipal Solid Waste (Digestion with SO2-Ethanol-Water Solution)
- Ethanol Production from Corn Dry Milling
- Ethanol from Wood Chips (Gasification and Direct Conversion)
- Ethanol from Wood Chips (Digestion with SO2-Ethanol-Water Solution)
- Ethanol from Wood Chips (Hemicelluloses Extraction)
- Ethanol from Wood Chips (Gasification and Hydrocarbonylation)
- Ethanol from Sugarcane Bagasse (Digestion with SO2-Ethanol-Water Solution)
- Ethanol from Sugarcane Bagasse (Hemicelluloses Extraction)
- Ethanol and Sugar Production from Sugarcane
- Ethanol Production from Sugarcane
- Cellulosic Ethanol from Switchgrass (Ammonia Conditioning)
- Ethanol from Switchgrass (Digestion with SO2-Ethanol-Water Solution)
- Ethanol Production from Ethylene
- Ethyl Acetate Production from Ethanol and Acetic Acid
- Ethyl Acetate Production from Ethanol
- Ethyl Acetate Production from Ethylene and Acetic Acid
- Ethyl Acetate Production from Acetaldehyde
- Ethyl Acrylate Production
- Ethylene Production from Vacuum Gas Oil
- Ethylene Production from Ethane
- Ethylene Production from Ethane/Propane Mixture
- Ethylene Production from Propane
- Ethylene Production from n-Butane
- Ethylene Production from Isobutane
- Ethylene Production from Atmospheric Gas Oil
- Ethylene Production from Naphtha (High Severity Steam Cracking)
- Ethylene Production from Naphtha (Low Severity Steam Cracking)
- Ethylene from Ethanol (Similar to BP Chemicals Process)
- Ethylene from Ethanol (Similar to Chematur Process)
- PG Ethylene from Ethanol (Similar to Braskem Process)
- PG Ethylene from Ethanol (Similar to Scientific Design Process)
- PG Ethylene from Ethanol (Similar to Dow Chemical Process)
- Ethylene Production from Methanol
- Ethylene Production from Methane
- CG Ethylene Production from Ethanol
- PG Ethylene Production from Ethylene-Rich Gas
- Ethylene Vinyl Acetate from Ethylene & VAM (Tubular Process)
- Ethylene Vinyl Acetate from Ethylene & VAM (Autoclave Process)
- FDCA Production from Glucose
- FDCA Production from Raw Sugar
- Solid FDCA Production from HMF
- Liquid FDCA Production from HMF
- Furfuryl Alcohol Production
- Formaldehyde from Methanol (Silver Catalyst and Methanol Recycle)
- Formaldehyde from Methanol (Silver Catalyst and Full Conversion)
- Formaldehyde from Methanol (Metal Oxide Catalyst)
- Formaldehyde Production from Methane
- Gasoline Production from Wood Chips (Fast Pyrolysis)
- Gasoline Production from Wood Chips (Gasification)
- Technical Grade Glycerol Production
- Hydrogen Peroxide Production
- Hydrogen Chloride Production from Hydrogen and Chlorine
- Hydrochloric Acid from NaCl and Sulfuric Acid (Reactor Furnace)
- Hydrochloric Acid from NaCl and Sulfuric Acid (Fluidized Bed Reactor)
- Hydrochloric Acid Production from Sodium Chloride and Sulfur
- Hydrogen Cyanide from Ammonia and Natural Gas (With Air)
- Hydrogen Cyanide from Ammonia and Natural Gas (Without Air)
- Hexamethylene Diisocyanate from HMDA (Phosgenation Process)
- Hexamethylene Diisocyanate from HMDA (Non-Phosgene Process)
- Bimodal HDPE from Ethylene and 1-Butene (Similar to Hostalen)
- Bimodal HDPE from Ethylene and 1-Butene (Similar to UNIPOL)
- Bimodal HDPE from Ethylene and 1-Butene (Similar to BORSTAR)
- HDPE from Ethylene and 1-Butene (Similar to Spherilene)
- Bimodal HDPE from Ethylene and 1-Hexene (Similar to Spherilene)
- Bimodal HDPE from Ethylene and 1-Hexene (Similar to MarTECH ADL)
- Homopolymer HDPE from Ethylene (Similar to MarTECH Loop Slurry)
- Homopolymer HDPE from Ethylene (Similar to Spherilene)
- Homopolymer HDPE from Ethylene (Similar to UNIPOL)
- Homopolymer HDPE from Ethylene (Similar to Advanced SCLAIRTECH)
- Hexane Production
- 1-Hexene Production from Ethylene
- 1-Hexene Production from Synfuels
- 1-Hexene Production from Raffinate-2
- Hexamethylenediamine Production from Butadiene
- Hexamethylenediamine Production from Adipic Acid
- Hexamethylenediamine Production from Acrylonitrile
- Hexamethylenediamine Production from Adiponitrile
- Hydroxymethylfurfural Production
- Hydroxypropyl Methyl Cellulose Production
- Hydrogen Production from Natural Gas (Steam Reforming)
- Hydrogen Production from Natural Gas (Partial Oxidation Process)
- Hydrogen Production from Naphtha
- Hydrogen Production from Water
- Hydrogen Production from Coal
- Hydrogen Production from Wood Chips
- Hydrogen Production from Vacuum Residue
- Itaconic Acid Production
- Invert Sugar Production
- Purified Isophthalic Acid Production
- Crude Isophthalic Acid Production
- IPDI Production from Isophorone and Chlorine
- IPDI Production from Isophorone and Urea
- Bio-Isobutanol Production from Corn
- Bio-Isobutanol Production from Raw Sugar
- Bio-Isobutanol Production from Corn Stover
- Isobutylene Production from Crude C4s
- Isobutylene from Isobutane (Platinum-Catalyzed Dehydrogenation)
- Isobutylene from Isobutane (Chromium-Catalyzed Dehydrogenation)
- Isobutylene from Isobutane (Steam Reforming and Oxyreaction)
- Isodecanol Production
- Isononanol Production from Octenes (Rhodium Catalyst)
- Isononanol Production from Octenes (Cobalt Catalyst)
- Bio-Isoprene Production from Glucose (Aerobic Fermentation)
- Bio-Isoprene Production from Glucose (Anaerobic Fermentation)
- Bio-Isoprene Production from Raw Sugar (Aerobic Fermentation)
- Bio-Isoprene Production from Raw Sugar (Anaerobic Fermentation)
- Isoprene Production from Crude C5s
- Isoprene Production from Isobutylene
- Isoprene Production from Acetylene and Acetone
- Isopropyl Alcohol Production from RG Propylene
- Isopropyl Alcohol Production from PG Propylene
- Isopropyl Alcohol Production from Acetone
- Isosorbide Production from Glucose
- Isosorbide Production from Sorbitol
- Lactic Acid from Glucose (Conventional Fermentation + Solvent Extraction)
- Lactic Acid from Glucose (Conventional Fermentation + Solvent Extraction with CO2)
- Lactic Acid from Glucose (Low pH Fermentation + Solvent Extraction)
- Lactic Acid from Glucose (Speculative Low pH Continuous Fermentation)
- Lactic Acid from Raw Sugar (Conventional Fermentation + Solvent Extraction)
- Lactic Acid from Raw Sugar (Conventional Fermentation + Solvent Extraction with CO2)
- Lactic Acid from Raw Sugar (Low pH Fermentation + Solvent Extraction)
- Lactic Acid from Raw Sugar (Speculative Low pH Continuous Fermentation)
- Lactic Acid Production from Lactose
- Linear Alkylbenzene Production
- C4 to C18+ Linear Alpha Olefins Production
- C4 to C30+ Linear Alpha Olefins Production
- C4 to C16+ Linear Alpha Olefins Production
- C4 to C12+ Linear Alpha Olefins from Ethylene (Zirconium Catalyst)
- C4 to C12+ Linear Alpha Olefins from Ethylene (Iron Complex Catalyst)
- C6 to C8 Linear Alpha Olefins Production
- Linear Alkylbenzene Sulfonate Production from LAB and Oleum
- Linear Alkylbenzene Sulfonate Production from LAB and Sulfur
- Laurolactam from Cyclododecane (Oximation with Hydroxylamine)
- Laurolactam from Cyclododecane (Photonitrization Process)
- LDPE Production from Ethylene (High-Pressure Tubular Process)
- LDPE Production from Ethylene (High-Pressure Autoclave Process)
- LLDPE from Ethylene and 1-Octene (Similar to SCLAIRTECH)
- LLDPE from Ethylene and 1-Octene (Similar to Advanced SCLAIRTECH)
- LLDPE from Ethylene and 1-Octene (Similar to DOWLEX)
- LLDPE Production from Ethylene and 1-Hexene (Similar to MarTECH)
- LLDPE Production from Ethylene and 1-Hexene (Similar to UNIPOL)
- LLDPE Production from Ethylene and 1-Butene (Similar to UNIPOL)
- LLDPE from Ethylene and 1-Butene (Similar to Spherilene)
- LLDPE from Ethylene and 1-Butene (Similar to SCLAIRTECH)
- L-Lysine-HCl Production from Glucose
- L-Lysine-HCl Production from Raw Sugar
- L-Lysine Sulfate Production from Glucose
- m-Xylene Production
- Methacrylic Acid Production from Isobutylene
- Methacrylic Acid Production from Isobutane
- Magnesium Sulfate Production
- Maleic Anhydride from Butane (Fixed-Bed Reactor + Solvent-Based Recovery)
- Maleic Anhydride from Butane (Two Fixed-Bed Reactors + Aqueous-Based Recovery)
- Maleic Anhydride Production from Butane (Fluid Bed Reactor)
- Maleic Anhydride Production from Benzene
- Maleic Anhydride Production from Butenes
- MDI Production from Aniline (Carbonylation Process)
- MDI Production from Aniline (Phosgenation Process)
- Ethanolamines Production
- Ethylene Glycol from Ethylene (Direct EO Hydrolysis)
- Ethylene Glycol from Ethylene (Carbonation without EO By-Product)
- Ethylene Glycol from Ethylene (Carbonation with EO By-Product)
- Ethylene Glycol Production from Carbon Dioxide
- Ethylene Glycol Production from Ethylene Oxide (Direct Hydrolysis)
- Ethylene Glycol Production from Ethylene Oxide (Carbonation)
- Ethylene Glycol Production from Syngas
- Methyl Ester Sulfonate Production
- Methanol Production from Natural Gas (Steam Reforming)
- Methanol Production from Natural Gas (Combined Reforming)
- Methanol Production from Natural Gas (Advanced GHR + ATR)
- Methanol Production from Syngas
- Methanol Production from Naphtha
- Methional Production from Propylene and Methyl Mercaptan
- DL-Methionine from Methional and Hydrogen Cyanide
- Bio-Methionine Production from Raw Sugar
- Bio-Methionine Production from Glucose
- DL-Methionine Production from Acrolein, Methyl Mercaptan and HCN
- Methionine Hydroxy Analog Production from Methional and HCN
- Methionine Hydroxy Analog from Acrolein, Methyl Mercaptan and HCN
- DL-Methionine from Propylene, Methyl Mercaptan and HCN
- Methyl Acrylate Production
- Methyl Chloride Production
- Melamine Formaldehyde Resins Production
- Methyl Methacrylate Production from Acetone, NH3 and Natural Gas
- Methyl Methacrylate Production from t-Butanol
- Methyl Methacrylate Production from Isobutylene
- Methyl Methacrylate Production from Acetone and Hydrogen Cyanide
- MTBE Production from Raffinate-1
- MTBE Production from FCC C4 Raffinate
- MTBE Production from Butane
- MTBE Production from Isobutylene
- Weak Nitric Acid from Ammonia (Medium Pressure Process)
- Weak Nitric Acid from Ammonia (High Pressure Process)
- Solid NaCN Production from Sodium, Charcoal and Ammonia
- Solid NaCN Production from Soda Ash, Charcoal and Ammonia
- Sodium Cyanide Solution Production
- Solid NaCN Production from Caustic Soda and HCN
- Solid NaCN Production from Caustic Soda, Ammonia and Natural Gas
- Nitrobenzene Production from Benzene (NORAM)
- Nitrobenzene Production from Benzene (KBR)
- Nitrile Rubber Production
- Acrylonitrile Butadiene Latex Production
- Neopentyl Glycol Production
- Nicotinamide Production
- Nitrogen Production
- NP Fertilizer Production
- NPK Fertilizer Production (Phosphonitric Process)
- Nylon 6 Production from Caprolactam (Batch Process)
- Nylon 6 Production from Caprolactam (Continuous Process)
- Nylon 6, 6 Production from Adipic Acid & HMDA (Batch Process)
- Nylon 6, 6 Production from Adipic Acid & HMDA (Continuous Process)
- Octenes Production from Butenes
- 1-Octene Production from Mixed C4s
- 1-Octene Production from Mixed C7s
- 1-Octene Production from Synfuels
- Oxalic Acid Production
- Gaseous Oxygen from Air (Cryogenic Process)
- Gaseous and Liquid Oxygen Production
- Gaseous Oxygen from Air (Vacuum Swing Adsorption Process)
- Propionic Acid Production from Ethylene
- Polyaluminum Chloride Solution from Aluminum Hydroxide
- Polyacrylonitrile Production
- UHVI Polyalphaolefins Production
- Paracetamol Production from p-Nitrochlorobenzene
- Paracetamol Production from Nitrobenzene
- Paracetamol Tablets Production
- Paraxylene from Mixed Xylenes (Only Adsorption and Isomerization)
- Paraxylene from Mixed Xylenes (O-Xylene Recovery)
- Paraxylene from Mixed Xylenes (Ethylbenzene Dealkylation)
- Paraxylene from Mixed Xylenes (P-Xylene Crystallization)
- Paraxylene from Toluene (STDP with Aluminosilicate Zeolite Catalyst)
- Paraxylene from Toluene (STDP with Pentasil Zeolite Catalyst)
- Paraxylene from Toluene (Conventional TDP)
- Paraxylene from Toluene and C9 Aromatics (TDP and Transalkylation)
- Paraxylene from Toluene and C9 Aromatics (Transalkylation)
- Bio-Paraxylene Production from Glucose (Catalytic Process)
- Bio-Paraxylene Production from Glucose (Fermentation Process)
- Bio-Paraxylene Production from Raw Sugar
- Polybutylene Succinate Production from Succinic Acid and Butanediol
- Polybutylene Succinate Production from Glucose and Butanediol
- Polybutylene Succinate Production from Raw Sugar and Butanediol
- Polybutylene Terephthalate Production
- Polycarbonate Production from BPA and Phosgene
- Polycarbonate Production from BPA and DPC
- Polycarbonate Production from BPA and Ethylene Oxide
- Polycarbonate Production from Phenol & Acetone
- Polycarbonate Production from BPA, Phenol and Phosgene
- Polycarbonate Production from BPA, Phenol and Methanol
- Polycarbonate Production from Phenol, Acetone and Methanol
- Isosorbide Polycarbonate Production
- Bio-Propanediol Production from Glucose
- Bio-Propanediol Production from Raw Sugar
- Bio-Propanediol Production from Glycerol
- Polyethylene Furanoate Production from FDCA
- Polyethylene Furanoate Production from Glucose
- Polyethylene Furanoate Production from Raw Sugar
- Pentaerythritol Production from Acetaldehyde and Formaldehyde
- Pentaerythritol Production from Acetaldehyde and Methanol
- Polyethylene Terephthalate from MEG and PTA (Polycondensation)
- Polyethylene Terephthalate from MEG and PTA (Diol Incorporation)
- Phenol-Formaldehyde Resins Production
- Polyhydroxybutyrate Production from Switchgrass
- Polyhydroxybutyrate Production from Sugarcane Bagasse
- Polyhydroxybutyrate Production from Natural Gas
- Phenethyl Alcohol Production
- Phenol Production from Cumene
- Phenol Production from Toluene
- Phenol Production from Benzene and Hydrogen Peroxide
- Phenol Production from Benzene and Propylene
- Phenthoate Production
- Phosgene Production
- Phthalic Anhydride Production from o-Xylene (Conventional Process)
- Phthalic Anhydride Production from o-Xylene (Low Air Ratio Process)
- Phthalic Anhydride Production from Naphthalene
- Polylactic Acid Production from Lactic Acid
- Polylactic Acid Production from Glucose
- Polylactic Acid Production from Raw Sugar
- Polylactic Acid Production from Corn
- PTMEG Production
- TMP-Propylene Oxide Polyether Production
- Sucrose-Based Polyether Production
- Phosphoric Acid Polyether Production
- Glycerol-Propoxylated Polyether (0 wt% EO) Production
- Glycerol-Propoxylated Polyether (5 wt% EO) Production
- TDA-Based Polyether Production
- Sorbitol-Based Polyether Production
- Glycerol-Propoxylated Polyether (20 wt% EO) Production
- Acrylonitrile Graft Polyether Production
- Polyisoprene Production from Isoprene
- Polyisoprene Production from Glucose
- Polyisoprene Production from Raw Sugar
- Polyoxymethylene from Formaldehyde and Acetic Anhydride
- Polyoxymethylene Production from Methanol and Acetic Anhydride
- Potassium Chlorate Production
- Potassium Iodide Production
- PP Homopolymer from Propylene (Spheripol)
- PP Homopolymer from Propylene (BORSTAR)
- PP Homopolymer from Propylene (Spherizone)
- PP Homopolymer from Propylene (UNIPOL)
- PP Homopolymer from Propylene (INNOVENE)
- PP Homopolymer from Propylene (Novolen)
- Impact PP from Propylene and Ethylene (Spherizone)
- Impact PP from Propylene and Ethylene (UNIPOL)
- Impact PP from Propylene and Ethylene (INNOVENE)
- Impact PP from Propylene and Ethylene (Novolen)
- Impact PP from Propylene and Ethylene (Spheripol)
- Impact PP from Propylene and Ethylene (BORSTAR)
- Impact PP from Propylene and Ethylene (Slurry Process)
- PP Random Copolymer from Propylene and Ethylene (Spheripol)
- PP Random Copolymer from Propylene and Ethylene (BORSTAR)
- PP Random Copolymer from Propylene and Ethylene (Spherizone)
- PP Random Copolymer from Propylene and Ethylene (UNIPOL)
- PP Random Copolymer from Propylene and Ethylene (INNOVENE)
- PP Random Copolymer from Propylene and Ethylene (Novolen)
- Polypropylene Carbonate Production
- Precipitated Silica Production
- Propanol Production
- Propylene Production from Ethylene and Butenes
- Propylene Production from Ethylene
- Propylene Production from Propane (Moving-Bed Reactor)
- Propylene Production from Propane (Fixed-Bed Reactor)
- Propylene Production from Propane (Oxydehydrogenation)
- Propylene Production from Methanol (Methanol-to-Propylene Process)
- Propylene Production from Methanol (Methanol-to-Olefins Process)
- Propylene Production from Vacuum Gas Oil (Catalytic Cracking)
- Propylene Production from Vacuum Gas Oil (Catalytic Pyrolysis)
- PG Propylene Production from RG Propylene
- Propylene Production from Naphtha (Steam Cracking)
- Propylene Production from Naphtha (Catalytic Cracking)
- Propylene Production from Butenes
- Propylene Production from Soybean Oil
- Propylene Glycol Production from Glycerol (Liquid-Phase Process)
- Propylene Glycol Production from Glycerol (Vapor-Phase Process)
- Propylene Glycol from Chlorine and Propylene
- Propylene Glycol from Propylene Oxide
- Propylene Oxide Production from Propylene and Chlorine
- Propylene Oxide from Propylene and Hydrogen (Direct Oxidation)
- Propylene Oxide Production from Propylene and Isobutane
- Propylene Oxide from Propylene and Hydrogen (Indirect Oxidation)
- Propylene Oxide Production from Propylene and Ethylbenzene
- Propylene Oxide from Propylene and Isobutane | Propylene Oxide E41A
- Propylene Oxide Production from Propylene and Cumene
- Propylene Oxide Production from Propylene and Hydrogen Peroxide
- General Purpose Polystyrene Production
- High Impact Polystyrene Production
- Expandable Polystyrene Production
- Syndiotactic Polystyrene Production
- High Temperature Resistant Polystyrene Production
- Polytrimethylene Terephthalate Production from TPA and Propanediol
- Polytrimethylene Terephthalate Production from TPA and Glucose
- Polytrimethylene Terephthalate Production from TPA and Raw Sugar
- Polyester Thermoplastic Polyurethane from MDI and Polyester Diol
- Polyester Thermoplastic Polyurethane from MDI and PTMEG
- Polyether Polyurethane from TDI and Polyether Triol (Typical Foaming)
- Polyether Polyurethane from TDI and Polyether Triol (VPF Process)
- Ribid Boardstock Polyester Polyurethane Production
- Polyvinyl Chloride Production from VCM (Suspension Polymerization)
- Polyvinyl Chloride Production from VCM (Bulk Polymerization)
- Polyvinyl Chloride Production from VCM (Emulsion Polymerization)
- Vinylidene Chloride-Vinyl Chloride Copolymer Production
- Vinylidene Chloride Copolymer from 1,1-DCE, MMA & Ethyl Acrylate
- Pyrantel Pamoate Production
- Reformate Production from LPG
- Reformate from Naphtha (Semi-Regeneration)
- Reformate from Naphtha (Semi-Regeneration & Extra Sulfur Removal)
- Reformate from Naphtha (Continuous Catalyst Regeneration)
- Feed-Grade Riboflavin Production
- Rifampicin Production
- Salicylic Acid Production
- Styrene/Acrylonitrile Resin Production
- Emulsion Styrene Butadiene Rubber Production
- Solution Styrene Butadiene Rubber Production
- High Solids Styrene Butadiene Latex Production
- Low Solids Styrene Butadiene Latex Production
- Sebacic Acid Production
- Silica Gel Production
- Silicone Surfactant Production
- Silicone Fluid Production
- Silicone Elastomers Production
- Octamethylcyclotetrasiloxane Production
- Hexamethyldisiloxane Production
- Sodium Lauryl Ether Sulfate Production
- Sodium Lauryl Sulfate Production
- Sodium Chlorate Production
- Sodium Chlorite Production from Sodium Chlorate
- Sodium Chlorite Production from Chlorine
- Sodium Hydroxide Production from Sodium Chloride (Membrane Process)
- Sodium Hydroxide Production from Sodium Chloride (Diaphragm Process)
- Sodium Hydroxide Production from Sodium Chloride (Mercury Process)
- Sodium Hydroxide Production from Lime and Sodium Carbonate
- Sodium Hydroxide Flakes Production
- Sodium Hypochlorite Production
- Starch-Graft Sodium Polyacrylate Production
- Sodium Polyacrylate Production
- Sodium Pyruvate Production from Glucose (Solvent Extraction)
- Sodium Pyruvate Production from Glucose (Electrodialysis)
- Styrene Production from Ethylbenzene
- Styrene Production from Propylene & Ethylbenzene
- Styrene Production from Ethane & Benzene (H2 as Co-Product)
- Styrene Production from Ethane & Benzene (H2 as Fuel)
- Styrene Production from Methanol & Toluene
- Bio-Succinic Acid from Raw Sugar (Electrodialysis Process)
- Bio-Succinic Acid from Raw Sugar (Ammonium Sulfate Process)
- Bio-Succinic Acid from Raw Sugar (Direct Crystallization & S. cerevisiae)
- Bio-Succinic Acid from Raw Sugar (Direct Crystallization & CB1 Yeast)
- Bio-Succinic Acid from Glucose (Electrodialysis Process)
- Bio-Succinic Acid from Glucose (Ammonium Sulfate Process)
- Bio-Succinic Acid from Glucose (Direct Crystallization & S. cerevisiae)
- Bio-Succinic Acid from Glucose (Direct Crystallization & CB1 Yeast)
- Bio-Succinic Acid Production from Glycerol
- Succinic Acid Production from Maleic Anhydride
- Sulfur Hexafluoride Production
- Sulfuric Acid from Sulfur (Double-Contact Process)
- Sulfuric Acid from Sulfur (Single-Contact Process)
- Sulfuric Acid Production from Iron Pyrite Gases
- Sulfuric Acid Production from H2S Gases
- Sulfuric Acid from Spent Acid (Double-Contact Process)
- Sulfuric Acid from Spent Acid (Wet Gas Sulfuric Acid Process)
- Sulfuric Acid Production from Tail Gas
- Syngas Production from Natural Gas (Autothermal Reforming)
- Syngas Production from Natural Gas (Steam Reforming)
- Syngas Production from Natural Gas (Combined Reforming)
- Syngas Production from Wood
- Syngas Production from Fuel Oil
- Syngas Production from Vacuum Residue
- Syngas Production from Coal (H2/CO Ratio of 1)
- Tanespimycin Production
- Tetrabromobisphenol A Production
- Tricalcium Phosphate Production
- Toluenediamine Production
- Toluene Diisocyanate Production from DNT, CO and Methanol
- Toluene Diisocyanate Production from DNT and Phosgene
- Toluene Diisocyanate from DNT and Cl2 (Liquid-Phase Phosgenation)
- Toluene Diisocyanate from DNT and Cl2 (Gas-Phase Phosgenation)
- Toluene Diisocyanate from Toluene (Reductive Carbonylation)
- Toluene Diisocyanate from Toluene (Oxidative Carbonylation)
- Toluene Diisocyanate from Toluene (Liquid-Phase Phosgenation)
- Toluene Diisocyanate from Toluene (Gas-Phase Phosgenation)
- Triethanolamine Lauryl Sulfate Production
- Tetrahydrofuran Production
- Thiram Production
- Titanium Butoxide Production
- Titanium Dioxide Production from Synthetic Rutile (Chloride Process)
- Titanium Dioxide Production from Ilmenite (Sulfate Process)
- Trimethylolpropane Production
- Medium-Purity Terephthalic Acid Production
- Purified Terephthalic Acid from p-Xylene (Conventional Process)
- Purified Terephthalic Acid from p-Xylene (BP Technology)
- Purified Terephthalic Acid from p-Xylene (GTC Technology)
- Trichlorfon Production
- Urea Formaldehyde Resins Production from Urea and Formalin
- Urea Formaldehyde Resins Production from Urea and Methanol
- Isophthalic Unsaturated Polyester Production
- Terephthalic Unsaturated Polyester Production
- Orthophthalic Unsaturated Polyester Production
- DCPD Unsaturated Polyester Production
- Prilled Urea Production from Ammonia (Self-Stripping Process)
- Prilled Urea Production from Ammonia (CO2 Stripping Process)
- Granulated Urea Production from Ammonia (Self-Stripping Process)
- Granulated Urea Production from Ammonia (CO2 Stripping Process)
- Prilled Urea Production from Natural Gas
- Granulated Urea Production from Natural Gas (Self-Stripping Process)
- Granulated Urea Production from Natural Gas (Chemical Looping Process)
- Vinyl Acetate Production from Acetic Acid and Ethylene
- Vinyl Acetate Production from Acetic Acid and Acetylene
- Vinyl Chloride Production from Ethylene Dichloride
- Vinyl Chloride Production from Ethane and Chlorine
- Vinyl Chloride Production from Acetylene
- Vinyl Chloride from Ethylene and Chlorine (Balanced Process)
- Vinyl Chloride from Ethylene and Chlorine (By-Product: HCl)
- Vinyl Chloride Production from Ethylene and EDC
- Ziram Production
- Activated Carbon Production from Coconut Shell (Chemical Activation)
- Weak Nitric Acid from Ammonia (Dual Pressure Process)
- Concentrated Nitric Acid Production from Ammonia
- Concentrated Nitric Acid Production from Weak Nitric Acid
- Construction Cost Indexes
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