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      PEP Reports and Reviews:
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  Review Number                    Review Name
82-2-2   1,4-Butanediol and Tetrahydrofuran from Butadiene
80-3-3   1,4-Butanediol by Electrochemical Synthesis
86-3-1   1,4-Butanediol from Allyl Alcohol
94-1-1   1,4-Butanediol from Maleic Anhydride via Dimethyl Maleate
95-1-8   1-Hexene from Ethylene by the Phillips Trimerization Technology
86-2-3   2,6-Xylenol and o-Cresol from Phenol
94-2-1   A Non-Tower Process for High Bulk Density Detergent Powders
89-2-3   Acetal Copolymers by an Asahi Chemical Process
91-1-3   Acetaldehyde Process, Catalytica
88-3-4   Acetic Acid by Low Pressure Carbonylation of Methanol with a Supported Rhodium Catalyst
75-3-3   Acetic Acid from Synthesis Gas
78-3-4   Acetic Acid, Low Pressure Carbonylation of Methanol
76-3-1   Acetic Anhydride from Dimethyl Ether
95-1-11   Acetone Recycling Technology in Phenol Manufacturing, Mitsui's
90-1-3   Acetonitrile Recovery in Acrylonitrile Manufacture
2008-2   Acid Gas Removal
84-2-4   Acrylamide by Enzymatic Hydration of Acrylonitrile
91-3-3   Acrylamide by Enzymatic Hydration of Acrylonitrile (Third Generation)
88-2-4   Acrylonitrile from Propane by New BP/Sohio Patented Process
95-1-6   Acrylonitrile Via High-Conversion Propane Ammoxidation
84-1-2   Adipic Acid via Butadiene Carbonylation
93-2-1   Alcohols (Natural Detergent) by a Vapor Phase Ester Hydrogenation Process
85-1-4   Alcohols, Mixed, from Syngas, Dow/UCC Process
96-9   Aliphatic Polyketones from Carbon Monoxide and Olefins by the Shell Liquid-Phase Polymerization Process
93-3-3   Alkylation Process, Haldor Topse
90-2-4   Alkylbenzene, Linear, by Heterogeneous Catalysis
88-1-2   Alkylbenzene, Linear, Using HF Catalyst
86-2-1   Allyl Alcohol from Propylene, Showa Denko
83-2-1   Ammonia from ICI's Low P AMV Process
93-1-4   Ammonia from Natural Gas
2007-10   Ammonia from Natural Gas by KBR "KAAP" Process
89-1-3   Ammonia from Natural Gas via ICI "LCA" Process
75-2-2   Ammonia Industry Outlook
IX-1-5   Aniline, Amination of Benzene
78-2-2   Anthraquinone from Naphthalene
82-2-3   Anthraquinone from Toluene
X-2-A   Aromatics BTX, Values
IX-2-2   Aromatics Extraction
85-3-3   Aromatics from LPG
82-1-1   Bisphenol A from Phenol, Acetone/UC Process
95-1-3   Bisphenol A Via Sinopec-Lummus Technology
91-3-1   Bisphenol Compounds via Cyclic Oligomers by GE Plastics Technology, Polycarbonates from
2007-1   Butanediol
95-1-10   Butanediol from Butadiene Via Epoxybutene
95-1-4   Butanediol from n-Butane Via Maleic Acid Hydrogenation
78-3-3   Butene-1 from MTBE Plant Raffinate
92-2-2   C4 Olefins Utilization
84-3-4   C5-C6 Isomerization
95-1-2   Caprolactam from Butadiene
87-3-2   Caprolactam Process (Modified) by Montedipe Technology
81-1-3   Caprolactam via SNIA Viscosa Process
84-1-1   Carbon Black
91-2-2   Carbon Monoxide-Ethylene Copolymers
81-1-1   Caustic Soda from Trona Caustization Process
88-3-1   Ceramic Coatings, Applications and Opportunities
2008-3   Chemical Plant Security Regulations and Associated Costs
80-3-1   Chemicals via Butylene Oxides by Hydroperoxide Process
83-3-2   Chlorinated Polyethylene
75-3-4   Chlorinated Polyvinyl Chloride
94-1-3   Chlorine from Hydrogen Chloride
87-1-1   Chlorine from Hydrogen Chloride by Oxidation
95-1-7   Chlorine from Hydrogen Chloride by the DuPont Electrolytic Process
75-1-1   Chlorine, Membrane Cells
96-12   Combinatorial Chemistry
2007-7   Comparison of Polyethylene Processes
75-2-3   Construction Cost Index
92-1-1   Coproduction of Dimethyl Carbonate and Ethylene Glycol by Transesterification
94-3-4   Crude-Oil Trend Line Price Projection
92-3-4   Cumene by a Catalytic Distillation Process
84-1-4   Cumene by Combined Reaction/Distillation
87-3-3   Cyclohexanol from Benzene by Asahi Chemical Process
97-7   Deep Catalytic Cracking
92-1-4   Degradable High-Molecular Polymers from Lactic Acid
94-1-4   Dendrimer Polymer from Diamino-Butane and Acrylonitrile
X-2-D   Detergent Alcohols Outlook
91-2-1   Dihydroxybenzenes from Phenol by Vapor-Phase Hydroxylation
84-3-3   Dimerization of Ethylene to Butene-1
91-1-2   Dimethyl Carbonate by Vapor Phase Oxidative Carbonylation
87-1-4   Dimethyl Carbonate from Methanol
92-2-4   Dimethyl-2,6-Naphthalenedicarboxylate from o-Xylene
97-2   Eastman Syngas Based Route Methyl Methacrylate
X-3-4   Energy Demand, U.S. Chemical Industry
84-3-2   Enriched Air by a Membrane Process
X-1-3   Environmental Regulations
93-1-2   Estimates of Production Costs, Quick
2007-15   Estimating the Carbon Footprint of the Worldwide Chemical Industry
88-3-2   ETBE Versus MTBE
X-2-C   Ethane Recovery from Natural Gas
97-3   Ethane-Based Process for Ethylbenzene
2007-9   Ethy Acetate by Direct Addition of Ethylene and Acetic Acid
X-1-1   Ethylene and Coproducts, Values
X-1-1   Ethylene and Coproducts, Values
93-3-2   Ethylene and Vinyl Chloride by the USC/Occidental Chemical Process, Coproduction of
75-1-5   Ethylene by Hydrocracking
80-1-3   Ethylene by Methanol Homologation
77-3-3   Ethylene from Atmospheric Gas Oil
76-3-3   Ethylene from Carbon Monoxide and Hydrogen
78-1-1   Ethylene from Crude Oil, UCC/Kureha/Chiyoda
87-1-2   Ethylene from Ethane by Oxydehydrogenation
85-2-2   Ethylene from Ethane, by Oxidative Dehydrogenation
79-3-4   Ethylene from Ethanol
82-2-1   Ethylene from Methane Chlorine Reaction System
79-3-2   Ethylene from Methanol
77-2-2   Ethylene from Naphtha, Millisecond Cracking
80-3-2   Ethylene from Synthesis Gas
IX-3-2   Ethylene from Synthesis Gas
82-1-3   Ethylene from Vacuum Gas Oil/Linde AG Process
82-1-2   Ethylene from Vacuum Gas Oil/Unicracking/FPP
83-3-3   Ethylene Glycol from Formaldehyde
X-2-B   Ethylene Glycol from Synthesis Gas
IX-3-3   Ethylene Glycol from Synthesis Gas
79-2-1   Ethylene Glycol via Ethylene Carbonate
X-3-3   Ethylene Glycol via Glycol Esters
81-2-1   Ethylene Glycol via Oxalate Esters
78-2-1   Ethylene Glycol via Oxalate Esters
83-3-4   Ethylene Glycol, Direct Process from Syngas
IX-2-4   Ethylene Glycols, Direct Oxidation
96-11   Ethylene Outlook
IX-1-3   Ethylene Oxide, Silver Ketenide Catalyst
75-2-4   Ethylene Oxide, Update
75-3-1   Ethylene, Alternate Feedstocks
2007-11   Feedstock Price Issues for Bio-Derived Materials
85-1-3   Fibers, a Novel Polyamide Blend
2008-13   Five-Year Outlook for Mergers and Acquisitions in the Chemical Industry
2007-2   Fischer-Tropsch Reactor System Loop
76-1-2   Fluorocarbon Turbines
96-2   Formaldehyde from Methanol
IX-2-5   Formaldehyde from Natural Gas
81-2-3   Gasoline from Natural Gas via Methanol/Mobil
97-10   Glyphosate
83-2-3   Group Transfer Polymerization Process/Du Pont
96-4   Hexamethylenediamine and Caprolactam from Adiponitrile by Partial Hydrogenation and Cyclization od Aminocapronitrile
78-2-3   HMDA by Electrolytic Dimerization of Acrylonitrile
84-1-3   Hydrogen by Methanol Decomposition
83-1-4   Hydrogen Chloride Recovery
X-3-2   Hydrogen Cyanide
76-3-4   Hydrogen Cyanide from Methanol
84-2-3   Hydrogen Peroxide by Cathodic Reduction
90-1-2   Hydrogen Peroxide by the ARCO Process
87-2-1   Hydrogen Peroxide from H2 and Oxygen, Dupont
76-3-2   Hydrogen Peroxide via an Inorganic Process
88-1-1   Hydrogen Sulfide Removal/Unisulf Process
75-1-2   Hydrogen, Closed Cycle
2007-3   Hydrogen: a Technical Review
85-3-2   Hydroquinone from Phenol, Zeolite-Catalyzed
IX-2-3   Hydroquinone Processes
95-1-12   Intermaterial Substitution Simulation
91-1-1   Isobutane Dehydrogenation by Thermal Cracking
92-3-1   Isobutene from Isobutane
91-2-4   Isobutene Production by Isomerization of N-Butene
88-1-4   Isobutylene, High-Purity, by Phenol Alkylation
78-3-2   Isomerization of n-Butenes in MTBE Manufacture
86-1-4   Isononyl Alcohols by Hydroformylation
90-3-2   Isophorone Diisocyanate by a Nonphosgenation Process
2007-8   Isotherming™ Hydrotreating Process for Ultra Low Sulfur Diesul Fuel
96-7   Lactic Acid by Fermentation
97-9   L-Lysine by Fermentation with Recovery by Ion-Exchange
97-8   Lysine-Sulfate Production by Fermentation with Recovery by Spray Drying
75-2-1   Maleic Anhydride from BB Fraction
X-3-1   Maleic Anhydride from Butene or Benzene
77-2-1   Maleic Anhydride from Butene, Benzene, Butane
93-2-3   Maleic Anhydride from n-Butane; Fixed Bed Reactor; Organic Solvent Recovery
75-1-3   Maleic Anhydride Recovery
86-3-4   m-Aminophenol from Resorcinol by Amination
94-1-2   MDI and PMPPI by Carbonylation, Lucky Non-Phosgenation Process
83-2-2   MDI via Asahi Nonphosgenation Process
92-2-1   Melamine by the Melamine Chemicals M-11 Process
93-1-3   Membranes in Chemical Processes Involving Hydrogen Transport, Economic Viability of Using
91-1-4   Mercury from Ethylene Plant Feedstock and Cracked Gas Streams, Removal of
95-1-9   Methacrolein Oxidative-Esterification Technology, Asahi Method
88-2-3   Methanol from Natural Gas by BNL Low Temperature Catalyzed Synthesis
91-3-2   Methanol from Natural Gas by ICI's LCM Process
89-3-1   Methanol from Natural Gas by the Lurgi Combined Reforming Process
86-3-3   Methanol from Natural Gas with Entrained Catalyst System
IX-1-2   Methanol from Non-Hydrocarbon Sources
93-2-2   Methanol Profitability: History and Outlook
92-3-3   Methyl Chloride Manufacture
87-2-3   Methyl Ethyl Ketone by Oxidation of n-Butenes
87-2-4   Methyl Formate by Dehydrogenation of Methanol
81-1-2   Methyl Isobutyl Ketone from Acetone
79-1-4   Methyl Methacrylate from Allyl Acetate
87-3-4   Methyl Methacrylate from Ethylene
78-3-1   Methyl Methacrylate from Ethylene
79-2-4   Methyl Methacrylate from Isobutylene
76-2-1   Methyl Methacrylate from Isobutylene
78-2-4   Methyl Methacrylate from t-Butanol
89-1-1   Methyl Methacrylate, New Process via Acetone Cyanohydrin
78-1-3   Methyl Tertiary-Butyl Ether
76-1-1   Methyl Tertiary-Butyl Ether
89-3-4   Methylamines via the Nitto Chemical Process
92-1-2   Microbial Insecticides - Bacillus Thuringiensis
92-1-3   Mobil Diisopropyl Ether Process
85-2-3   Molecular Sieve Drying of 190 Proof Ethanol
87-3-1   MTBE from Butadiene Rich Mixed C4s
79-1-2   MTBE from n-Butane
92-2-3   N(1,3-Dimethylbutyl)-N-Phenyl-p-Phenylenediamine
87-1-3   Naphtha Etherification
94-3-1   Natural Gas Pricing Mechanisms
96-8   Natural Gas to Liquid Hydrocarbons Technology Based on the Syntroleum Process
82-3-3   Nitric Acid, Concentrated
78-1-2   Nitrobenzene by Adiabatic Nitration
89-3-2   Nitrogen (95%) from Air by Vacuum Pressure Swing Adsorption
86-1-1   Nitrogen from Air by Pressure Swing Adsorption
95-1-5   Norbornene from Dicyclopentadiene and Ethylene
89-2-2   Nylon 12,12 Resin from Butadiene by Du Pont Technology
88-1-3   Nylon 4,6
2008-5   Olefinic Block Copolymer Production Using Dow Chemical's Chain Shuttling Process
79-3-1   Olefins, Light, from Ethylene
94-2-2   One-Step Oxo Process for Propanediol
97-6   One-Step Phenol from Benzene by the Alphox Process
96-1   Outlook for Propylene Availability in Asia-Pacific
89-2-4   Overhead Spending, Nonmanufacturing, in the Chemicals Industry
90-3-4   Oxo Process, Low Pressure, with Liquid Recycle
89-3-3   Oxygen, Options for Procuring
83-1-2   p-Cresol from p-Toluenesulfonic Acid
2007-12   Passenger Car Motor Oil: Development and Future Trends
89-2-1   PEP Plant Construction Cost Indices- Review of Trends
81-3-1   PEP Plant Cost Index, Recent Trends
97-1   PET Bottle Resin by Pyromellitic Dianhydride Process
94-3-3   Petrochemical Industry, Cyclicality
89-1-2   Petrochemicals Price Behavior
76-2-4   Phenol by Direct Oxidation of Benzene
80-2-1   Phenol from Ethylbenzene, Coproduct VA
80-2-2   Phenol from Toluene, Coproduct Formaldehyde
79-2-2   Phosgene
92-3-2   Phosphoric Acid, Purification of Wet Process
87-2-2   Piperidine from Furfural by Mitsubishi Technology
75-1-4   Plastic Bottles
79-3-3   p-Methylstyrene
79-1-3   PMPPI and MDI from Nitrobenzene
80-1-4   PMPPI from Nitrobenzene by Carbonylation
77-2-5   PMPPI or Polymeric MDI by Carbonylation Process
86-3-2   Poly(Propylene Carbonates)
93-2-4   Polyethernitrile (PENI) Heat Resistant Polymer from 2,6-Dichlorobenzonitrile and Resorcinol
90-3-1   Polyethylene Terephthalate Recycle by Depolymerization
79-1-1   Polyethylene, High Density,Gas Phase Process
77-3-1   Polyethylene, Low Density, Union Carbide Process
85-1-2   Polymer, Superabsorbent, Acrylic Acid Based
86-1-3   Polymers, Specialty, R&D Trends
96-6   Polymethyl Methacrylate Tertiary Recycling Technology, ICI's
86-2-4   Polyphosphazenes
X-1-2   Polypropylene
91-2-3   Polypropylene by a Vertical Stirred-Bed Process (BASF Technology)
81-2-2   Polypropylene, El Paso Process Using Mitsui/Montedison Catalyst
90-2-3   Polystyrene via the SDS Process
94-3-2   Polytetramethylene Glycol from Tetrahydrofuran via a Diacetate Intermediate
85-3-4   Polyvinyl Chloride by a Continuous Suspension Process
IX-1-6   Polyvinyl Chloride, Vapor Phase Bulk Polymerization
75-3-2   Power Costs Ñ Houston, Texas Area
84-3-1   Process for Making Polyethylene Polyamides
85-2-1   Propylene from Ethylene by Disproportionation
80-2-3   Propylene from Propane by Catalytic Dehydrogenation.
77-3-4   Propylene Glycol
76-3-5   Propylene Oxide by Perpropionic Acid Epoxidation
90-1-1   Propylene Oxide by the Olin Process
77-1-1   Propylene Oxide from Propylene Glycol Monoacetate
2008-7   Pulverized Coal Fired Power Plant
96-10   Purified Terephthalic Acid from p-Xylene by Hydrolysis of Dimethyl Terephthalate
79-2-3   p-Xylene from Non-aromatics
83-1-1   p-Xylene from Toluene and Methanol
86-1-2   p-Xylene Separation, CCCC Process
93-1-1   Pyromellitic Dianhydride
80-1-2   Recycle C4s for Ethylene Production
2007-7   Reach Briefing: A Review of EU Chemicals’ Licensing
2007-5   Sellers Beware: Voluntary Carbon Offsets, Carbon Labels and the
Chemical Industry
84-2-2   Secondary Butyl Alcohol via Direct Hydration
83-1-3   Sodium Nitrilotriacetate
2007-6   Speculative Incremental Design Improvement for Caprolactam Via Liquid Phase Ammoximation And Vapor Phase Rearrangement
84-2-1   Styrene by the Lurgi Isothermal Process
77-1-2   Styrene Economics
77-1-4   Styrene from Butadiene
94-2-4   Styrene from Butadiene via 4-Vinylcyclohexene by the Dow Process
93-3-1   Styrene from Dilute Ethylene
91-3-4   Styrene from Ethylbenzene Using Membrane Reactors
81-3-2   Styrene from Toluene
76-1-3   Styrene from Toluene and Ethylene
88-2-2   Styrene Process Ñ UOP
X-1-4   Styrene-Aniline Coproduction
96-5   Styrene-Butadiene Rubber
2007-13   Succinic Acid from Maleic Anhydride
90-1-4   Sucralose Ñ a High Intensity, Noncaloric Sweetner
88-2-1   Sulfur and Hydrogen, Recovery from Hydrogen Sulfide
86-2-2   Sulfuric Acid from Phosphogypsum, DMC-FIPR Process
80-1-1   Supplementary LPG Feed for Naphtha Crackers
97-4   Supply Chain Management Practices Benchmarks in the Bulk Polymer Industry
90-3-3   Syngas by the Partial Oxidation of Natural Gas
78-1-4   Synthesis Gas Costs
IX-3-1   Synthesis Gas from Natural Gas or Coal
81-3-3   Synthetic Zeolites in Commercial Applications
IX-1-4   Terephthalic Acid from Nitrile
76-2-3   Terephthalic Acid from Toluene
76-2-2   Terephthalic Acid from Toluene and CO
77-2-4   Terephthalic Acid(Medium Purity) from p-Xylene
IX-3-5   Terephthalic Acid-Maruzen Process
95-1-1   tert-Amyl Methyl Ether by the Nextame Process
90-2-1   Tetrahydrofuran from Maleic Acid
83-3-1   Tetrahydrofuran, Butanediol from Acetylene
85-3-1   Tetramethylene Diamine for Nylon 4,6
97-5   The Changing Structure of the Chemical Industry
96-3   Titanium Dioxide Technology Trends and Regional Production Cost Benchmarking
83-2-4   TMXDI via American Cyanamid Nonphosgenation Route
77-2-3   Toluene Diisocyanate by Carbonylation Process
IX-3-4   Toluene Steam Dealkylation
85-1-1   Trimellitic Anhydride from m-Xylene
IX-2-1   Trimellitic Anhydride from Pseudocumene
94-2-3   Update on Maleic Anhydride from n-Butabne via Fluidized Bed Reactor with an Organic Solvent Absorber
76-1-4   Uranium Recovery from Phosphate Rocks
82-3-1   Urea by the Isobaric Double Recycle Process
90-2-2   Urea by UTI's Heat Recycle Process
82-3-2   Urea Granulation by the Fluid Bed Process
IX-1-1   Utilities, Cost of
X-1-5   Vapor Recompression
77-3-2   Vinyl Acetate, Carbonylation of Methyl Acetate
88-3-3   Vinyl Chloride from EDC Pyrolysis by Tosoh Technology
89-1-4   Xylenes Isomerization
93-3-4   Xylenes Isomerization
 
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