Process Economics Program® (PEP) Reviews by Number

Reviews

Review Number	Review Name
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)
2013-01	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 Basell�s 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
2000-05	Acrolein Production From Propane
2000-4	Carbon Trading In The Chemical Industry: A Look At Coming CO2 Emission Limits
2000-03	Hydroquinone From Phenol Using Ti-Si Catalyst
2000-02	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	α-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
76-2-2	Terephthalic Acid from Toluene and Carbon Monoxide via p-Tolualdehyde
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