Process Economics Program

Compare new chemical process technologies and economics faster and at less cost.

New chemical manufacturing technologies can pose an opportunity or a threat. Whether you are acquiring a new technology or responding to a rival, the ability to quickly compare technical designs and production costs is a competitive advantage.

Process Economics Program (PEP) Yearbook is the world’s largest online process economics database, with access to 2,000+ process technologies used to produce 600+ chemicals in 6 regions.The only source for new process analysis, PEP Reports and Reviews allow you to uncover the impact of changes in processes, feedstocks, energy prices, and government regulations on chemical and fuel production economics. In addition, with the iPEP Navigator, you can generate process economics tailored to your project needs.

Chemical, energy, engineering and investment firms use PEP to:

Reduce the time and cost it takes to collect and assess new technology information
Make investment and production decisions based on unbiased, expert assessments
Customize process economics data to specific project needs
Compare production costs and technical designs to optimize technology selection
Keep pace with technology, market and regulatory developments
Capitalize on market shifts and mitigate competitor threats

Interact with the data and explore scenarios using iPEP Navigator

CONTACT SALES

Technology Innovations: Crude-Oil-to-Chemicals

WATCH PRESENTATION

Customer Testimonial

We have confidence that our investments today will deliver strong and sustainable growth when the plant is fully operational – starting next year and for decades to come.”

– CEO of firm that used S&P Global data and analysis when securing $4.5 billion to build the largest petrochemical facility in the Americas.,

PEP is a partnership

PEP is a problem-solving partnership that integrates your needs with our expert analysis. PEP experts stay current on client issues through on-going contacts with industry representatives, conference participation and site visits. They use the resulting insights to generate topics for future research. Clients then vote on next round of PEP research to make sure the topics reflect their areas of interest. All PEP customers receive access to the experts to discuss information in the studies.

Find the right PEP product for your business need

To learn more about each of our PEP products and how you can use them, click on the individual report names below.

Reports

Perform new process analysis and economics

Industry status
Patent and literature review
3 processes
Process flow diagrams
Major equipment lists
Raw material and utility requirements
Capital and operating cost estimates
iPEP Navigator module–quickly select processes and regions; convert English/metric units

Reviews

Perform new process analysis and economics

Industry status
Patent and literature review
1 process
Raw material and utility requirements
Capital and operating cost estimates
Timely analysis of “hot issues” affecting the industry
iPEP Navigator module – quickly select processes and regions; convert English/metric units

Consolidated Reports

Conduct thorough analysis of competing processes for product manufacturing

Single report that details all competing processes for producing a chemical, with in-depth process and economic information
Annual or frequent updates
iPEP Navigator module–quickly select processes and regions; convert English/metric units

Yearbook

Access the Process Economics Program database

World's largest online process economics database:

1,500+ process technologies used to produce 600+ chemicals in 6 regions
Estimates of raw material and utility requirements, and capital and production costs for 3 plant capacity levels
User-defined ability to change specific capacities
Available in English or metric units
Quarterly updated, single-page economics for of 1,500+ processes
Online tool for process economics customization and comparison

Available Publications

Publication Schedule

Clients can view abstracts, tables of contents, and prices for individual reports by viewing the listing of PEP reports currently available. To view the listing of recently issued reports, see Latest Updates under Chemical News.

The 2024 PEP schedule is available here.

The 2023 PEP schedule is available here.

The 2022 PEP schedule is available here.

Reports

Report Number	Report Name

32G	Ammonia Cracking Technologies for Hydrogen Production
199J	Base Chemicals from Plastics Pyrolysis Oil
29N	Net-zero Ethylene Production by Steam Cracking of Naphtha
32F	Commercially Available Blue Hydrogen Production
199I	Tire Recycling
115E	Biodegradable Polymers
309	Bio-Based Monoethylene Glycol
43G	Reduced Carbon Intensity and Renewable Methanol Production
303D	Crude Oil Conversion to Chemicals
29L	Bioethylene by Ethanol Dehydration
227	1,3 Propanediol and Polytrimethylene Terephthalate (PTT)
20, 20A, 20B, 20C	ABS Resins
69, 69A	Acetal Resins
24, 24A/2	Acetaldehyde
37, 37C	Acetic Acid
37A, 37B	Acetic Acid and Acetic Anhydride
77	Acetone, Methyl Ethyl Ketone (MEK) and Methyl Isobutyl Ketone
16, 16A	Acetylene
109	Acetylene vs. Ethylene as a Chemical Raw Material
216	Acid Gas Treatment and Sulfur Recovery
99	Acrylamide and Polyacrylamide 99
6E	Acrylic Acid from Glycerin
6, 6A, 6B, 6C, 6D	Acrylic Acids and Acrylic Esters
6F	Acrylic Acid
17, 17A, 17A/1, 17A/2, 17A/3, 17B	Acrylonitrile
78	Acrylonitrile Thermoplastics
83, 83A	Adhesives
3, 3A, 3B	Adipic Acid
257	Advanced Biorefineries
180C, 180D	Advanced Carbon Capture
51B	Advanced Composite Materials
247A	Advanced Gas-to-Liquid Process
196	Advanced Structural Ceramics
44, 44A, 44B	Advances in Ammonia Technology
251A	Advances in Biodiesel and Renewable Diesel Production
129A, 129B, 129C	Advances in Catalytic Reforming
195, 195A	Advances in Fluid Catalytic Cracking
187, 187A	Advances in Hazardous Waste Treatment
190C	Advances in Membrane Technology for Chemical Separation Applications
199E	Advances in Mixed Plastics Chemical Recycling
248A	Advances in Naphtha Steam Cracking
275	Advances in Natural Gas Conversion Technologies
225	Advances in Oxidation Technology
25D	Advances in p-Xylene Technologies
56B	Advances in Urea Technology
1F	Aliphatic Diisocyanates Processes
59, 59A	Aliphatic Surfactants
203	Alkane Dehydrogenation and Aromatization
138	Alkyl Amines
180G	Alternative Carbon Capture Technologies
88, 88A, 88B,88C	Recent Advances in Light Hydrocarbon Alkylation
44C	Ammonia
106, 106A	Amino Acids
76C	Aniline and Derivatives
59B	Anionic Surfactants
85, 85A	Antioxidants
85B	Antioxidants and Light Stabilizers
167	Aramids
76, 76A/1, 76B	Aromatic Amines
182, 182A, 182B	Aromatic Processes
30, 30A	Aromatics BTX
25E	Aromatics Upgrading Technologies
209	Aromatics Industry Outlook
144	Ascorbic Acid
179	Barrier Resins
310	Batteries for Electric Vehicles
145	Battery Limits Cost Estimating
145C	Battery Limit Cost Estimation
145D	Waste Treatment Cost Estimation
19G	Bimodal HDPE
19E	Bimodal Linear Low-Density Polyethylene
284	Bio-Based Adipic Acid
59C	Bio-Based Anionic Surfactants
259	Bio-based C3s
294	Bio-Based Furan Dicarboxylic Acid and Its Polymer Polyethylene Furanoate
265, 265A	Bio-based Polymers
265B	Bio-based Polymers
217	Bio-Based Polyols
206A	Bio-Based Solvents
292	Bio-Based Succinic Acid
278B	Bio-based Sustainable Aviation Fuels
264	Biobutanol
241	Biocatalysis
263	Biochemical Cellulosic Ethanol
115D	Biodegradable Polymer Life Cycle Assessment
115C	Biodegradable Polymers
250	Biodegradable Polymers from Plants
251	Biodiesel Production
278	Biofuels from Algae
258	Biomass Gasification
302	Biomass Pretreatment
286	Biomass Pyrolysis
188	Biotechnology Reaction Systems
188A, 188B	Biotechnology Separation Processes
192	Bisphenol A and Alkylated Phenols
192A	Bisphenol A
81	Bisphenol A and Phosgene
175B	Blends Containing Engineering Thermoplastics
175A	Blends Containing Polyolefins
175	Blends of Thermoplastic Polymers
146	Bulk Chemicals from Synthesis Gas
35, 35A/1, 35B, 35C	Butadiene
35D	Butadiene as a Low Chemical Raw Material
74	Butylene Polymers
71, 71A	Butylenes
118	Butyrolactam and Laurolactam 118
126	C1 Chlorinated Hydrocarbons
7/1, 7/2, 7A, 7B, 7C	Caprolactam
7D	Caprolactam Update
90	Carbon Black
180B	Carbon Capture from Coal Fired Power Generation
180A	Carbon Capture From Natural Gas Power Generation
237	Carbon Dioxide (CO2) Emissions Reduction
180H	Carbon Dioxide Capture Economics Model
180I	Carbon Dioxide Capture Economic Model – Part II
180	Carbon Dioxide Separation
285A	Carbon Dioxide Utilization Technologies
165, 165A	Carbon Fibers
123	Carbon Monoxide
153, 153A	Catalysts
153F	Catalysts for Polyolefins
153C	Catalysts for Polypropylene for Polyethylene Production
153G	Catalysts for Reforming Naphtha to Hydrocarbons
263A	Cellulosic Bioethanol
100	Chemical Production by Fischer-Tropsch and Related Syntheses
RP199D	Chemical Recycling of PET
234	Chemicals for Electronics Industry
252	Chemicals From Agricultural Wastes
235	Chemicals from Ethanol
236	Chemicals from Renewable Resources
147	Chemicals from Wood and Wood Wastes
232	Chiral Intermediates
48	Chlorinated Solvents
61, 61A, 61B, 61C, 61D	Chlorine
61E	Chlorine-Advanced Commercial Chlor-Alkali Technolog y
112	Chlorine Dioxide, Chlorates, Chlorites and Hypochlorites
201	Chlorofluorocarbon Alternatives
67	Chloroprene
154, 154A, 154B	Coal Gasification
101	Coal Tar Chemicals
271	Coal to Gasoline
305	Coal to Liquids
279	Coal to Olefins
277	Coal to Substitute Natural Gas
181, 181A	Cogeneration 181A
181B	Commercial Scale Cogeneration
280	Compendium of Leading Bioethanol Technologies
162	Computer Program for Estimating Plant Envestment
119	Construction Costs
213	Copolyesters
148/1	Costs of Synthesis Gases and Methanol
49, 49A1	Cresols and Cresylic Acids
303	Crude Oil to p-Xylene Hengli Refinery-PX Complex
303C	Crude Oil to p-Xylene—Shenghong Refinery-PX Complex
303A	Crude Oil to p-Xylene – Zhejiang Refinery-PX Complex
219	Cumene
219A	Cumene
238	Custom Chemical Manufacture
133	Desalination
183	Detergent Builders
75	Dibasic Acids for Nylon Manufacture
79, 79A	Dihydroxybenzenes
301	Dimethyl Carbonate
235A	Direct Ethanol to C4 Chemicals and Fuels
245B	Dimethyl Ether (DME) From Coal
245	Dimethyl Ether As Alternate Fuel
245A	Dimethyl Ether As Fuel
243A	Direct Methanol Fuel Cells
299	Direct Syngas to Light Olefins
102	Disposal and Recovery of Waste Organo-Chlorides
260	Economics and Petrochemical Cycles
107	Economics of Chemical Refineries
127B	Economics of Fertilizer Complexes
204	Economics of Petrochemical Complexes
172	Economics of Petrochemical Production in Saudi Arabia and Western Canada
204A	Economics of Petrochemicals in S.E. Asia
204B	Economics of Petrochemicals Production In China
116	Electron Beam Curing Polymers
115, 115A, 115B	Environmentally Degradable Polymers
139	Enzyme Technology
38, 38A	Epoxy Resins
145A	Estimating Plant Investments
149	Ethanol for Gasohol
149A	Ethanol Production in Brazil
29, 29B, 29E	Ethylene
29O	Ethylene e-Cracker: Comparative Analysis of Electricity Sources For Naphtha Cracking
29F	Ethylene by Non-Conventional Processes
155	Ethylene Copolymers
220	Ethylene Feedstock Outlook
208	Ethylene from Methane
150	Ethylene from Refinery Gas
2I	Ethylene Glycol
70A, 70B	Ethylene Glycol
70	Ethylene Glycols, Glycol Ethers and Ethanolamines
29D	Ethylene Industry Profiles
2F	Ethylene Oxide and Ethylene Glycol
193	Ethylene Oxide Derivatives
29C	Ethylene Plant Conversion
29G	Ethylene Plant Enhancement
4, 4A, 4C	Ethylene Propylene Co-Polymer and Terpolymers
4B	Ethylene Propylene Terpolymer Rubber
29A	Ethylene-Propylene
155A	Ethylene/Vinyl Acetate Copolymers
155B	Ethylene-Vinyl Acetate Copolymers
306	Ethylene via Acetylene from Natural Gas
205B	Experience Curves
42, 42A/1	Fatty Acids
40	Fatty Nitrogen Compounds
95	Fermentation Processes
127	Fertilizers - Ammonium Phosphate
127A/1	Fertilizers - Nitrogen
92	Flame Retardant Additives
92A	Flame Retardant Additives
114	Flame Retardant Polyols
166, 166A	Fluorinated Polymers
166B	Fluoropolymers
97, 97A	Foamed Plastics
23, 23A	Formaldehyde
23B	Formaldehyde
156	Formic Acid
274	Fuel Alcohols and Electricity Cogeneration from Petroleum Coke Gasification
243	Fuel Cells for Vehicles and Power
231	Fuels for 21st Century Vehicles
52	Furnace Phosphorus and Phosphoric Acid
132	Gas Oil Conversion to Fuels and Petrochemicals
247	Gas To Liquids
273	Gasoline Benzene Removal
239	Global Chemical Industry in the 21st Century
58	Glycerine and Intermediates
266	Heavy Oil from Tar Sands
214A	Heavy Oil Hydrotreating
210	Hetercyclic Nitrogen Compounds
31, 31A, 31B, 31C	Hexamethylenediamine
184	High Purity Silicon 184
86, 86A, 86B, 86D, 86E, 86F	High Temperature Polymers
19C, 19D	High-Density Polyethylene
RP195B	High Olefins Fluid Catalytic Cracking Processes
174A	High-Output Fluidized Bed Polyethylene Technology
268	Higher Alcohols from Syngas, Technology Survey
134	Hydrochloric Acid
211	Hydrocracking
211A	Hydrocracking for Middle Distillates
211B	Hydrocracking of Heavy Oils and Residua
211C	Hydrocracking by Slurry Process
89	Hydrofluoric Acid and Fluorocarbons
32, 32A	Hydrogen
32E	Hydrogen by Electrolysis
199K	Hydrogen from Plastic Waste
68B	Hydrogen Peroxide
68, 68A/1	Hydrogen Peroxide and Peracetic Acid
32C	Hydrogen Production
214	Hydrotreating
32D	Hydrogen Delivery Options
242	Industrial Coatings
139A	Industrial Enzymes
226	Innovative Chemical Reactors
226A	Innovative Reactors and Process Intensification
169A	Integrated Refinery/Petrochemical Profitability
124, 124A	Ion Exchange Resins
256	Ionic Liquids
1A/1, 1A/2, 1B, 1C/1, 1C/2, 1D, 1E	Isocyanates
91	Isomerization of Paraffins 91
28, 28A/1, 28B	Isoprene
293	Iso-C₄ Processes
247D	Large-scale Gas-to-Liquids Plants
199G	Large-scale Pyrolysis—Plastic Chemical Recycling
RP297	Light Hydrocarbon and Light Naphtha Utilization
12, 12A, 12B/1, 12C, 12D, 12E	Linear Alpha Olefins
303E	Light olefins focused crude oil to chemicals complex
163	Linear C12-C15 Primary Alcohols
27	Linear Higher Alcohols
36C, 36E	Linear Low Density Polyethylene
19, 19A, 19B	Linear Polypropylene and Polyethylene
103	Liquefied Natural Gas
103A	Liquefied Natural Gas
191A	Liquid Hydrocarbons from Synthesis Gas
204C	Location Factors
36, 36A, 36B, 36D	Low Density Polyethylene
307	Lubricant Base Oils

310A	Lithium-based Materials for Battery Production
157, 157A	Lubricating Oil Additives
46, 46A/1, 46B, 46C	Maleic Anhydride
199F	Mechanical Recycling of Waste Polymers
43D	Mega Methanol Plants
122	Melamine
190A	Membrane Gas Separation Processes
190	Membranes for Gas Separation
296	Metallocene Polyalphaolefins (PAO)
11, 11A, 11B, 11C, 11D	Methacrylic Acid and Methacrylic Esters
43, 43A/1, 43B, 43C, 43F	Methanol
111	Methanol as a Chemical Raw Material
111A	Methanol Based Chemicals
43E	Methanol From Coal
282	Methanol to Gasoline
261	Methanol to Olefins
255	Methyl Methacrylate
131	Methyl Tertiary-Butyl Ether and Tertiary-Butyl Alcohol (TBA)
108	Middle East's Potential in Chemicals
177	Mining Chemicals
202	Monomers for High Performance Polymers
285B	Monetizing CO₂
55	N-Paraffins
29K	Naphtha Catalytic Cracking
135, 135A	Natural Gas Liquids
216A	Natural Gas Acid Gas Removal and Sulfur Recovery
216B	Natural Gas Sweetening by Membrane Separation
246	Near-Zero Sulfur Diesel Fuel
4D	New Generation EPDM Technologies 4D
21F	New Generation Oxo Alcohols
180F	Next Generation Carbon Capture
153D	Non-Metallocene Single Site Catalysts
168	Nonionic Surfactants
200	NOx Removal
41, 41A	Nylon 6
41B	Nylon 6 and Caprolactam
54, 54A, 54B	Nylon 6,6
224	Ocean Transportation Freight Rates
158B	Octane Improvers
158, 158A	Octane Improvers for Gasoline
145B	Offsite Investment Cost Estimation
142	Oilfield Chemicals
35E	On-Purpose Butadiene Production
281	On-Purpose Technologies for Polyethylene Comonomers
140, 140A	Operating Costs in the Chemical Industry
135C	Opportunities for Gas-to-Liquid Technologies
212	Options for Refinery Hydrogen
304	Options to Meet Impending Marine Bunker Fuel Specifications
234A	Organic Light Emitting Diodes
113	Organic Phosphorus Compounds
21, 21A, 21B, 21C, 21D, 21E	Oxo Alcohols
221	Oxygenate Economics
190B	Pervaporation
171, 171A, 171B, 171C, 171D	Pesticides and Intermediates
205, 205A	Petrochemical Industry Profitability
169B	Petrochemicals From Refinery Streams
72, 72A/1, 72B	Petroleum Coke
47, 47A	Petroleum Desulfurization
222	Petroleum Industry Outlook
215	Petroleum Refining Profitability
120	Petroleum Resins
22, 22A, 22B, 22C, 22D	Phenol
34, 34A, 34B	Phthalic Anhydride
159	Plastic Films
199, 199A	Plastics Reclamation and Recycling 199
199B	Plastics Recycling to Liquids
65A	Poly(meth)acrylates
164	Polyacetylene and Other Inherently Conducting Polymers
65	Polyacrylates
94/1, 94/2	Polyamides Other Than Nylons 6 and 66
73	Polybutadiene
96, 96A, 96B	Polybutylene Terephthalate (PBT) and Butanediol
50, 50A, 50B, 50C, 50D, 50E, 50F	Polycarbonate Update
223	Polycyclic Olefins
189	Polyesters Thermoplastic
185A	Polyethylene by Slurry-Phase Polymerization
202A	Polyethylene Naphthalate Monomers
18, 18A, 18B, 18C	Polyethylene Terephthalate
18D	Polyethylene Terephthalate
141, 141A	Polyethylene Terephthalate Bottles and Bottle Resins
82	Polyisoprene
51C, 51D	Polymer Nanocomposites
308	Polyolefin Elastomers/Plastomers (POE/POP)
173	Polyolefin Specialty Products
174	Polyolefins by Gas Phase Processes
45A	Polyols for Making Polyurethanes 45A
45B	Polyols for Polyurethanes
45C	Polyols for Polyurethanes
45	Polyols from Ethylene Oxide and Propylene Oxide
128, 128A, 128E	Polypropylene
128C	Polypropylene Update 128C
272	Polysilicon for Solar Wafers
39, 39A, 39B, 39D	Polystyrene
10, 10A, 10B, 10C, 10D	Polyurethanes
57, 57A	Polyvinyl Acetate and Polyvinyl Alcohol
13, 13A, 13B, 13C/1, 13D, 13E	Polyvinyl Chloride
RP199C	Post–Consumer Plastic Recycling
14	Potash Fertilizers
304A	Powering Shipping with Low Carbon Options
98, 98A	Powder Coatings
17/C	Propane-Based Acrylonitrile
267B	Propane Dehydrogenation (II)
267A	Propane Dehydrogenation Process Technologies
267C	Propylene by Olefin Conversion Processes
267D	Propane Dehydrogenation
262	Propylene Glycol from Glycerin
178, 178A	Propylene Industry Outlook
2E, 2G, 2H	Propylene Oxide
2, 2A, 2B, 2C, 2D	Propylene Oxide And Ethylene Oxide
198	Propylene Oxide Derivatives
267	Propylene Production
60, 60A	Proteins from Hydrocarbons
9H	Purified Terephthalic Acid (PTA)
195C	Pushing FCC for Maximum Chemicals Production
143	Pyrethroid Insecticides
29M	Reduced Carbon Intensity Ethylene Production
151	Recovery of Low Temperature Heat
254	Refinery C5s Hydrocarbons
237A	Refinery CO2 Emission Reduction
153E	Refinery Catalysts
303B	Refinery Configurations for Maximizing Crude Oil to Chemicals Production
229	Refinery Residue Gasification
228	Refinery Residue Updating
169	Refinery/Chemicals Interface
129	Reforming for BTX
51, 51A	Reinforced Plastics
180E	Retrofitting for Carbon Capture
278A	Second Generation Biofuels
160	Silicones
153B	Single-Site Catalysts
185	Slurry Phase Polypropylene
285C	Small-scale CO₂ Utilization Plants
247B	Small Scale Gas-to-Liquids Technology
32B	Small-Scale Hydrogen Production
187B	Soil Remediation
276	Solar Photovoltaic Technology
199H	Solvent-Based Recycling of Waste Plastics
206	Solvents Specialty
218	Speciality Surfactants
159A, 159B	Specialty Plastic Films
173A	Specialty Polyolefins: VLDPE
207	Specialty Styrenic Thermoplastics
186	Specialty Thermoplastic Elastomers
29J	Steam Cracking of Crude Oil
248	Steam Cracking For Olefins Production
244	Strategic Business Units for Epoxy Resins and Polycarbonates
249	Strategic Business Units of ABS and Polystyrene Resins
240	Strategic Business Units of Nylon 6 and Nylon 66
33, 33A, 33B, 33C	Styrene
176	Styrene and p-Methylstyrene and Polymers
64	Styrene Butadiene Elastomers
63C	Sulfur Dioxide Removal From Flue Gases
63, 63A, 63B	Sulfur Dioxide Removal From Stack Gases
230	Sulfur Removal from Petroleum Fuels
84, 84A	Sulfuric Acid
194, 194A	Superabsorbent Polymers
19F	Supercritcal Loop Reactor Slurry Process for Producing Polyethylene and Polypropylene
269	Supercritical CO2: a Green Solvent
197	Supercritical Fluid Processing
278C	Sustainable Fuels from Waste Residues
170	Sweeteners
65B	Syndiotactic Poly(meth)acrylates
128B	Syndiotactic Polypropylene 128B
39C	Syndiotactic Polystyrene
RP298	Syngas Fermentation Processes
148A	Synthesis Gas
110	Synthesis Gas Production
148D	Synthesis Gas Production from Chinese Gasifiers
148C	Synthesis Gas Production from Coal and Petroleum Coke Gasification
148B	Synthesis Gas Production from Natural Gas Reforming
53, 53A, 53A/1	Synthetic Ethanol and Isopropanol
285D	Synthetic Fuels from Hydrogen and Captured Carbon Dioxide
125A	Synthetic Lubricant Base Stocks
125	Synthetic Lubricants
87	Synthetic Paper
303F	TC2C™ Thermal Crude to Chemicals Technology
128D	Technologies for the Production of Secondary Propylene
9F	Terephthalic Acid
9, 9A, 9B, 9C, 9E	Terephthalic Acid and Dimethyl Terephthalate
233	The Promise of New Technology Platforms for Biotechnology
270	Thermochemical Cellulosic Ethanol
175C	Thermoplastic Elastomer Blends
104, 104A	Thermoplastic Elastomers
93A	Thermosetting Matrix Resins
93	Thermosetting Resins
117	Titanium Dioxide Pigment
80	Treatment of Petrochemical Wastewater
66	Trimellitic and Pyromellitic Anhydrides
300	Unconventional Aromatics Processes
26, 26A	Unsaturated Polyesters
56, 56A	Urea
136, 136A	Utilities Plant Costs
191	Utilization of Remote Methane
152	UV Curing of Coatings Inks and Adhesives
161	Vacuum Residuum as a Petrochemical Feedstock
247E	Value-Added Products from GTL Plants
15, 15A	Vinyl Acetate
15C	Vinyl Acetate Monomer
15B	Vinyl Acetate/Polyvinyl Acetate
5, 5A, 5B, 5B/1, 5C, 5D	Vinyl Chloride
62, 62A	Vinyl Plasticizers
253	Vinyl Polymers
105	Vinylidene Chloride, Monomer and Polymers
137	Waste Treatment Costs
295	Wastewater Treatment Technologies
130A	Water-Soluble Polymers
130	Water-Soluble Resins
8, 8A, 8B, 8C	Wet Process Phosphoric Acid
121, 121A, 121B, 121C	World Petrochemical Feedstocks
25, 25A, 25B/1, 25C	Xylenes Separation

Reviews

Review Number	Review Name

2024-01	Carbon Footprint of Chemical Industry
2024-03	Production of MDEA
2024-04	Ultrapure Water for Green Hydrogen
2024-06	Bastnäsite Ore Processing for Rare-earth Oxide Production — Part I
S2024-16	Small Modular Reactors White Paper
2024-15	Polyvinylidene Fluoride using Non-Fluorinated Surfactant
2024-12	Ammonia as a Direct Fuel for Gas Turbine
2024-10	Dynamic Construction Location Factors Update
2024-09	Biogas from Biomass
2024-07	On-purpose Butadiene Production by LG-Chem process
2024-05	Hydrodealkylation of Toluene for Benzene Production by Axens Technology
2024-02	Per- and Polyfluoroalkyl Substances (PFAS): A Profile
2023-15	Dynamic Construction Location Factors Update
2023-14	Novolen^® Polypropylene Update
2023-13	TrueBlue Methanol^®Process
2023-12	Vinyl Chloride Monomer
2023-11	Sour Water Stripping with Ammonia Separation
2023-10	Monetizing CO₂ Impact of Rules 45Q and 45V
2023-09	Hydrochloric Acid from Hydrogen and Chlorine
2023-08	Diesel Hydrocracking for Naphtha
2023-07	Oleic Acid from Crude Palm Oil
2023-06	UOP MaxEne™ Process
2023-05	XPRIZE Milestone Award Winners - A First Look at Their Commercial Prospects
2023-04	Green Ammonia via Electrolytic Hydrogen
2023-03	Gasoline Production by GT-BTX PluS
2023-02	Blue Ammonia via Casale’s A6000CC™ Technology
2023-01	CO₂ to Ethylene via Electroreduction
2022-15	Decarbonizing a Palm Oil Mill and Refinery
2022-14	Isopropyl Alcohol (IPA) from Acetone
2022-13	Polybutylene Terephthalate
2022-12	Propylene Glycol from Glycerin by Sulzer GTC’s GT-ProG^SM Process
2022-11	Blue Hydrogen Via Autothermal Reforming
2022-10	Assessment of a Biogas Refinery
2022-09	Phthalic Anhydride-An Update
2022-08	Methanol-to-Hydrogen Conversion Process
2022-07	Blue Hydrogen
2022-06	Deep Catalytic Cracking (DCC)
2022-05	Dow Net-zero Olefins from Ethane
2022-04	Low Carbon Ethylene Production via E-furnace Powered by NET Power Cycle
2022-03	Net-zero carbon ethylene production via recovery of CO₂ from cracking furnace flue gas
2022-02	Natural Gas to Ammonia by Linde Ammonia Concept (LAC™) Process \| S&P Global
2022-01	Mitsubishi Gas Chemical Methanol Process \| S&P Global
2021-15	Hydrogen from Natural Gas with Carbon Capture
2021-14	Economics of LNG Cold Energy Utilization by Generation of Electricity
2021-13	Cost Analysis of a Typical Oil and Gas Production Unit
2021-12	Fertilizer Grade Ammonium Nitrate Production by KBR Process
2021-11	FCC Revamp Economics
2021-10	Carbon Footprint and Allocation in an Integrated Refinery - Petrochemical Complex
2021-09	Wet Sulfuric Acid Process
2021-08	Hydrogen from Natural Gas with 60% Carbon Dioxide Capture
2021-07	Hydrogen and Carbon Black by Methane Pyrolysis
2021-06	Polyethylene Production by Borealis' Borstar^® 3G PE Multimodal Process
2021-05	Natural Gas to Gasoline by Haldor Topsøe’s TIGAS™ Process
2021-04	Mixed Feed Naphtha Steam Cracking
2021-03	Sulfur forming—Granulation Process
2021-02	Electric Power Via NET Power
2021-01	Processing Lean Natural Gas
2020-15	Green Ammonia Technology
2020-14	Maleic Anhydride from n-Butane by Scientific Design Co. process
2020-13	Plastic Recycling-Value Preservation and Carbon Avoidance
2020-12	Ethane Export Terminal
2020-11	Integrated Cumene-Phenol/Acetone-Bisphenol A-Part III: Bisphenol A (BPA)
2020-10	Integrated Cumene-Phenol/Acetone/Bisphenol A - Part II: Phenol/Acetone
2020-09	Integrated cumene-phenol/acetone/Bisphenol A- Part I: Cumene
2020-08	Maleic Anhydride by Huntsman Technology
2020-07	Green Methanol Production Process
2020-06	LNG Regasification Terminal
2020-05	Floating Methanol Production
2020-04	KBR K-COT Catalytic Cracking Process
2020-03	Polyetherketoneketone (PEKK)
2020-02	Phenol Production by ExxonMobil 3-step Process
2020-01	Ethylene to Alkylate Process by Next Wave Energy
2019-15	Plastic Recycling and Sustainability—a Process Economics Framework
2019-14	Full Density Polyethylene
2019-13	Well Resources^TM Ionikylation Process
2019-12	Dynamic Construction Location Factors
2019-11	MAX-ISOM^™ Technology
2019-10	DMTE Technology - Syngas to Methyl Acetate or Ethanol
2019-09	SuperClaus^® Process for enhanced sulfur recovery
2019-08	MEG Process via Formaldehyde
2019-07	Hydrogen Production by Electrolysis
2019-06	Methanol from Coke-oven Gas
2019-05	Hydrochloric Acid (HCl) Recycle to Chlorine by the Sumitomo Catalytic Oxidation Process
2019-04	Waste Treatment Costs for Non-Phosgenation Based Polycarbonate Production
2019-03	Single Step MIBK Process
2019-02	Methaforming
2019-01	Small Scale Anhydrous Hydrochloric Acid
2018-15	Flare Systems
2018-14	Acrylic Acid by BASF Technology
2018-13	Methyl Methacrylate (MMA) Production by BASF Process
2018-12	Sulfuric Acid from Sulfur - Updates on Contact Process
2018-11	Chevron Lummus Global LC-SLURRY Technology for VR Upgrade
2018-10	Dual Methane Expander Liquefaction for LNG Production (with Promax Simulation)
2018-09	Hydrogen Chloride (HCl) Recycle to Chlorine Using ODC Electrolysis Technology
2018-08	Styrene by Total Fina/Badger Process
2018-07	UOP’s Two-Stage Tatoray™ Process
2018-06	Crude Oil to Chemicals and Oxidative Coupling of Methane: Potential for Synergy?
2018-05	Methyl Methacrylate (MMA) Production by Evonik’s LiMA Process
2018-04	Crude Oil Vacuum Distillation
2018-03	Crude Oil Atmospheric Distillation
2018-02	Condensate Splitting
2018-01	Acetic Acid by Chiyoda CT-ACETICA™ Process
2017-15	Estimation of Project Cost beyond EPC Construction Costs
2017-14	Isoprene by Isopentane Dehydrogenation
2017-13	TDI (Toluene Diisocyanate) Process
2017-12	Accounting for Carbon Emission Cost in Chemical Production Economics
2017-11	SBR Process Summary
2017-10	Styrene by CB&I/UOP SMART Technology
2017-09	Styrene by CB&I/UOP Classic Technology
2017-08	Melamine by Golden Elephant Process
2017-07	Isoprene Process Summary
2017-06	Diphenyl Carbonate by Asahi Kasei Process
2017-05	Bimodal HDPE production by a gas-phase process similar to LyondellBasell’s Hyperzone Process
2017-04	Syngas Production for Ammonia from Coal
2017-03	Syngas Production for Ammonia from Natural Gas
2017-02	Ammonia Production by Haldor Topsøe Advanced Process
2017-01	CNPC (China National Petroleum Corporation) Millionton PTA Process
2016-15	Nitric Acid KBR Weatherly Single-Pressure Process
2016-14	Ammonia Production by Haldor Topsøe Conventional Process
2016-13	MDI Process Update
2016-12	Chlor-Alkali Process Summary
2016-11	Propylene Process Summary
2016-10	Acrylic Acid Process Summary
2016-09	Nitric Acid KBR Weatherly Dual-Pressure Process
2016-08	Chemical Value Chain Production Economics
2016-07	Air Separation Process Update
2016-06	Pygas C₅ Separation Processes

2016-05	Process Summary: Natural Gas Liquids Separation and Recovery
2016-04	ExxonMobil Butyl Rubber Process
2016-03	LNG Process Summary
2016-02	Toluene Methylation Process by GT-TolAlk^SM Technology
2016-01	Carbon monoxide production from syngas via cryogenic partial condensation process
2015-15	LLDPE Process Summary
2015-14	Acrylonitrile Process Summary
2015-13	Small-Scale Floating LNG
2015-12	BP’s PX Crystallization Process Offered by CB&I Lummus
2015-11	BP New Generation Process for Polymer-Grade Terephthalic Acid Production
2015-10	Hydrogen Process Summary
2015-09	Ethylene Process Summary
2015-08	Polyvinyl Chloride by JNC Suspension Polymerization Process
2015-07	Hydrogen Cyanide by the Andrussow and BMA Processes
2015-06	Polyamide (Nylon) 6 and 66 Process Summary
2015-05	Cellulose Acetate Flake
2015-04	Isoprene Production via Kuraray One-Step Isoprene and Formaldehyde Process
2015-03	Hydrogen Balancing in a Gas-to-Liquids (GTL) Plant
2015-02	Bayer-ThyssenKrupp ODC (Oxygen Depolarized Cathode) Chlor-Alkali Technology
2015-01	Acid Gas Removal from Natural Gas
2014-15	Sugar Production via Corn Wet Milling
2014-14	Polybutadiene Production by Lithium Catalyst
2014-13	On Purpose Octene-1 by Dow's Butadiene Telomerization Process
2014-12	Octene-1 by Sasol Heptene-1 Hydroformylation Technology
2014-11	Monoethylene Glycol (MEG) Process Summary
2014-10	Acetic Acid from Syngas via the BP SaaBre Process
2014-09	Polybutadiene Production by Neodymium Catalyst
2014-08	Ethylbenzene by Badger EBMax^SM Liquid Phase Alkylation Process
2014-07	Oxidative Coupling of Methane to Ethylene by Siluria Process
2014-06	Methanol Process Summary
2014-05	Methyl Methacrylate (MMA) Process Summary
2014-04	para-Dichlorobenzene
2014-03	Polypropylene Process Summary
2014-02	Exxon Isodecyl Alcohol from Nonenes
2014-01	Syngas via MIDREX^® SynRG^™Reformer
2013-15	Hydrogen Peroxide
2013-14	Liquid-Phase Alkylation of Dilute Ethylene to Ethylbenzene by Lummus Process
2013-13	Update of Offsite Costs
2013-12	LDPE Process Summary
2013-11	Phenol and Cumene Process Summary
2013-10	Adipic Acid from Free Fatty Acids via Verdezyne Fermentation
2013-09	Coal-Based MEG Production by Ube Process
2013-08	Coal-Based MEG Production by Sinopec SRIPT Process
2013-07	Acetic Acid, Update of the BP Cativa Process
2013-06	High-Purity Isobutylene from t-Butanol by LyondellBasell Process
2013-05	Propylene Production via the Ethylene Dimerization and OCT Technology
2013-04	Davy Methanation Process Technology Integrated with Coal to Substitute Natural Gas
2013-03	Cerenol™—DuPont Polyether Glycol Made from 1,3-Propanediol (PDO
2013-02	NGL Recovery by Low Pressure Drop Refrigeration Process
2013-01	Acetic Acid, Update of the Celanese AO Plus Process
2012-15	Tipping Point for Power Generation: New NGCC vs Legacy Coal
2012-14	Light Naphtha Isomerization by JSC SIE Neftehim IsoMalk-2™ Process
2012-13	Polyamide (Nylon) 6
2012-12	Glacial Acrylic Acid via Sulzer Falling Film Crystallization
2012-11	1-Hexene Production by Axens AlphaHexol™ Process
2012-10	Ethylene Glycol Production from Coal-Based Synthesis Gas
2012-09	Polypropylene by INEOS Technologies Innovene™ PP Process
2012-08	PEP Cost Index Methodology Update
2012-07	Methyl Tertiary Butyl Ether Production from Steam Cracker C4 Stream
2012-06	High-Purity Isobutylene Production by MTBE Cracking
2012-05	Propylene Production by the JGC/MCC DTP™ Process
2012-04	Process Economics of Coal-Based Olefins Production in China
2012-03	Coal Gasification Technology in China
2012-02	Acetic Acid, Update of Oxidation Routes
2012-01	Acetic Acid, Update of the Chiyoda Acetica™ Routes
2011-15	Polypropylene by LyondellBasell's Spheripol Process
2011-14	Methanol Production via Toyo Process
2011-13	Advanced Technology Natural Gas Combined Cycle
2011-12	Continuous SAP Production via Double Kneader Reactor
2011-11	Enhanced Oil Recovery (EOR) Using CO2
2011-10	Ethanol Production by Celanese Acetyl Technology
2011-09	Bio-Based Isoprene
2011-08	Polycarbonate via Dow Phosgenation Process
2011-07	Updating the PEP Cost Index
2011-06	Rebalancing the PEP Cost Index
2011-05	On-Purpose Butadiene Production
2011-04	Propylene Production via Metathesis of Ethylene and Butenes
2011-03	Closed Loop Processing in Polysilicon Production
2011-02	Carbonate Production by an Alkyltin Alkoxide Catalyst
2011-01	Chloroacetic Acid by Direct Chlorination
2010-15	CO2 Recovery by Fluor's CO2LDSep? Process
2010-14	Bio-Based Succinic Acid
2010-13	Reverse Osmosis for Seawater Desalination
2010-12	Ethylene Oxide Production by Nippon Shokubai Process
2010-11	Thermal Visbreaking of Vacuum Residue
2010-10	Lummus/CB&I Hexene-1 from C4 Process (Comonomer Production Technology)
2010-09	Propylene Production from Propane by the Catofin Process
2010-08	Electrostatic Desalting of Opportunity Crude Oils
2010-07	ABS Resin Production
2010-6	Catalytic Steam Gasification
2010-5	Lithium for Electric Vehicles—a Technology and Economic Assessment
2010-4	Fischer-Tropsch Oxygenated Products
2010-3	Ultra High Supercritical Pulverized Coal
2010-2	ExxonMobil's Ultra High Viscosity Index Poly Alpha Olefin Lubricant Blend Stock
2010-1	Polyvinyl Alcohol Production
2009-15	Liquid Phase Methanol
2009-14	C3-C4 Oligomerization for Gasoline
2009-13	Natural Gas Recovery from Methane Hydrates via Depressurization
2009-12	Carbon Dioxide Compression
2009-11	Ammonia from Natural Gas by the KBR Purifier Process
2009-10	Ammonia from Natural Gas by the Lurgi-Casale Megammonia Process
2009-9	Biodiesel from Algae
2009-8	Polyethylene Production By A Solution Process Using Loop Polymerization Reactors
2009-7	Cyclic Olefin Copolymers (COC)
2009-6	Polyphenylene Sulfide (PPS)
2009-5	Biodiesel via the Heterogeneous Catalysis Catilin Process
2009-4	Propylene Oxide by the BASF-Dow HPPO Process
2009-3	Integrated Production of Toluene Diisocyanate from Toluene
2009-2	Asahi Kasei Diphenyl Carbonate Process Involving the Production and Use of Dibutyl Carbonate
2009-1	HF Alkylation Process Incorporating ExxonMobil Concepts Disclosed In U.S. Patent Applications Issued In June/July 2008
2008-15	Process Water Management and Treatment
2008-14	Processing Acidic Crude Oils
2008-13	Five-Year Outlook for Mergers and Acquisitions in the Chemical Industry
2008-12	Will the Real Carbon Footprint Please Stand Up?
2008-11	Carbon Capture Via Oxycombustion
2008-10	INEOS Slurry Loop Polyethylene Process
2008-9	Fuel and Petrochemical Price Relationships in High Crude Oil Price Environment
2008-8	Natural Gas Combined-Cycle Power Plant
2008-7	Pulverized Coal Fired Power Plant
2008-6	Advanced Pyrolysis Gasoline Upgrading
2008-5	Olefinic Block Copolymer Production Using Dow Chemical's Chain Shuttling Process
2008-4	Soil Remediation
2008-3	Chemical Plant Security Regulations and Associated Costs
2008-2	Acid Gas Removal
2008-1	Toluene Diisocyanate from Toluene Diamine by Bayer Gas Phase Phosgenation Preliminary Evaluation
2007-15	Estimating the Carbon Footprint of the Worldwide Chemical Industry
2007-14	Reach Briefing: A Review of EU Chemicals' Licensing
2007-13	Succinic Acid from Maleic Anhydride
2007-12	Passenger Car Motor Oil: Development and Future Trends
2007-11	Feedstock Price Issues for Bio-Derived Materials
2007-10	Ammonia from Natural Gas by KBR "KAAP" Process
2007-9	Ethyl Acetate by Direct Addition of Ethylene and Acetic Acid
2007-8	IsoTherming™ Hydrotreating Process for Ultra Low Sulfur Diesel Fuel
2007-7	Comparison of Polyethylene Processes
2007-6	Speculative Incremental Design Improvement for Caprolactam Via Liquid Phase Ammoximation And Vapor Phase Rearrangement
2007-5	Sellers Beware: Voluntary Carbon Offsets, Carbon Labels and the Chemical Industry
2007-4	Epichlorohydrin from Glycerin
2007-3	Hydrogen: a Technical Review
2007-2	Fischer-Tropsch Reactor System Loop
2007-1	Biobutanol
2006-15	p-Xylene by Combined Crystallization/Adsorption Process
2006-14	Production of Toluene Diisocyanate from Toluene Diamine and Dimethyl Carbonate
2006-13	Polyethylene by Basells Hostalen Process
2006-12	Trends in Coating Resins Made by Emulsion Polymerization
2006-11	Production of Propylene from Fluid Catalytic Cracker Naphtha Streams
2006-10	Polyethylene By Basell's Spherilene Process
2006-9	North American Ethylene Feedstocks
2006-8	Major Trends Affecting the Chemical Industry
2006-7	Remote Gas Strategies Onsite Storage of Natural Gas Hydrates
2006-6	Short Contact Time Catalytic Cracking
2006-5	Iron Catalysis for Fischer-Tropsch Fuels Production
2006-4	Sucralose Production Via the Sucrose-6-Acetate Route
2006-3	Biodiesel and Global Warmer Emissions: Is The Biofuel For Fossil Fuel Trade-Off Actually A Payoff?
2006-2	Price, Labor Cost and Labor Productivity Indices for PEP Cost Index China
2006-1	PEP Cost Index—China East Coast
2005-15	Recovery Of Styrene From Pyrolysis Gasoline
2005-14	Polyethylene by Chevron-Phillips Slurry Loop Process
2005-13	Vinylidene Chloride Copolymers by Suspension and Emulsion Polymerization
2005-12	Current Development of Technology for the Production of Bisphenol A
2005-11	Advances In Naphtha Steam Cracking
2005-10	Estimating CO2 from Production-Cost Data: What and Why?
2005-09	Diphenyl Carbonate from Phenol via Diphenyl Oxalates with Improved Ube Technology
2005-08	Production of Ethylene-Based Elastomers by a Solution Process with Exxpol™ Metallocene Catalyst
2005-07	Biodiesel via Axens Heterogeneous Catalysis Esterfip-H Process
2005-06	Polyethylene By Borealis' Borstar Process
2005-05	Lyondell Direct-Oxidation Propylene Oxide Technology
2005-04	Ethanol From Switchgrass
2005-03	LNG Regasification
2005-02	Remote Gas Strategies Commercial Status of GTL
2005-01	Remote Gas Strategies – Industry Status of Remote Gas Production
2004-15	Superflex™ Process For Light Olefins
2004-14	An Integrated Process for TDI via TDA and Dimethylcarbonate
2004-13	Online Trading for Chemicals: Status Outlook
2004-12	Formic Acid by Kemira Process
2004-11	Mega Ammonia
2004-10	Ethanol from Straw
2004-9	Hexafluoropropylene Oxide Production by a Biphasic Process
2004-8	Direct Methanol Fuel Cell Technology Update
2004-7	Update of Caprolactam via Liquid Phase Ammoximation and Vapor Phase Rearrangement
2004-6	Physical Property Issues In Simulation: Liquid-Liquid Equilibria
2004-5	Experience Curve Impact on Capital Cost
2004-4	Cyclohexanone from Cyclohexane by Bionic Oxidation with Sinopec Technology
2004-3	1,3-Propanediol from Ethylene Oxide via A 3-Hydroxyester
2004-2	MDI
2004-1	Physical Property Issues In Simulation: Vapor-Liquid Equilibria
2003-15	Base Load LNG By Cascade Refrigeration
2003-14	Developments in the External Value of Intellectual Property in the Chemical Industry
2003-13	Competitive Intelligence from Environmental Regulatory Information
2003-12	NExOCTANE™ Isooctane Process
2003-11	Ethanol from Bagasse
2003-10	New One-Step Oxo Process for 1,3-Propanediol
2003-9	"Jumbo" Dimethyl Ether Production Process via Toyo Technology
2003-8	Salicylic Acid
2003-7	Anionic Polystyrene; A New Generation
2003-6	Online Process Economics Optimizers
2003-5	Process for Production of Ethylene Vinyl Alcohol Copolymer
2003-4	Economics Forces Restructuring The Chemical Industry
2003-3	Monetizing Carbon Dioxide Into Synthesis Gas
2003-2	Soil Remediation: Air Sparging and Thermal Desorption
2003-1	Carbon Nanotubes In Japan
2002-15	Divided-Wall Distillation Technology
2002-14	Ethylbenzene From Ethylene And Benzene via Zeolite Catalyzed Process (Sept 2003)
2002-13	Advances in Solid State Hydrogen Storage Technologies
2002-12	Butadiene Extraction by BASF New NMP Process
2002-11	Acrylate-Based Weakly Acidic Cationic Ion Exchange Resins
2002-10	Diphenyl Carbonate from Ethylene Carbonate via Dimethyl Carbonate by Asahi Technology
2002-9	Production of Perfluorodioxole and Amorphous Fluoropolymer
2002-8	Polyhydroxyalkanoates from Organic Wastes
2002-7	Liquefied Natural Gas By The Mixed Fluid Cascade Process
2002-6	Update on Phenol From Benzene via Single-Step Hydroxylation
2002-5	Biodiesel Production Via Axens' Heterogeneous Catalysis Process
2002-4	Polyvinylidene Fluoride (PVDF) By A Supercritical CO2 Process
2002-3	Hydrogen Energy and Its Future Applications
2002-2	Hydrogen Energy and Its Present Applications
2002-1	Security Vulnerability Assessments for the Chemical Industry
2001-15	Technologies for Lower-Carbon Power Generation
2001-14	“Jumbo” Methanol Production Process via Toyo Technology
2001-13	White Mineral Oils by the BASF Process
2001-12	S Zorb Diesel Sulfur Removal Technology
2001-11	UOP Methanol to Olefins
2001-10	The Olefins Industry in the New EU Member States: Profile And Competitive Assessment
2001-9	Acrylic Acid Production by Propane Oxidation
2001-8	Hydrogen Outlet For Methanol
2001-7	Single-Step Hydrogen Gas Synthesis
2001-6	Ethylene Carbonate From Ethylene Oxide
2001-5	Barge Mounted Methanol Production
2001-4	Petroleum Coke Gasification
2001-3	Commercial Production of Calcium Formate
2001-2	Physical Property Issues In Simulation: Gas Solubility
2001-1	Six Sigma In Chemicals: More Than A Fad, But Not For Everyone
2000-15	Future Process Technology Developments
2000-14	Reaction Injection Molded Automotive Body Panels
2000-13	Fischer-Tropsch Synthesis Via Reactive Distillation
2000-12	Fischer-Tropsch Synthesis Via Low Boiling Solvent Slurry Phase
2000-11	Barge Mounted GTL Production
2000-10	Impact Of The EU's 'Reach' Chemicals Policy
2000-9	Impact Of Biodiesel Growth: A Strategic Assessment
2000-8	Demography And Demand: Growth Scenarios For 2040
2000-7	Ethanol From Corn Stover
2000-6	Regeneration Of Sulfuric Acid From Sulfate Salts Via Hydrogen Peroxide
2000-5	Acrolein Production From Propane
2000-4	Carbon Trading In The Chemical Industry: A Look At Coming CO2 Emission Limits
2000-3	Hydroquinone From Phenol Using Ti-Si Catalyst
2000-2	Maleic Anhydride from n-Butane by the Boc/Mitsubishi Technology
2000-1	The Aftertreatment Market For Particle And Nox Emissions In Diesel Road Transport
99-15	Acetaminophen
99-14	Methyl Methacrylate By Lucite's Alpha Technology
99-13	a-Tocopherol (Vitamin E) Acetate Production From Citral Via Isophytol
99-12	The Economics of Recycling PET in Europe
99-11	Responsible Investing and the Chemical Industry
99-10	Ascorbic Acid
99-9	Integrated Hydrogen Peroxide And Propylene Oxide Technology
99-8	Fluidized-Bed Technology For Vinyl Acetate Monomer
99-7	Lipase Production Using Pseudomonas Alcaligenes
99-6	alpha-Amylase Production Using Bacillus Species
99-5	Auto Dismantling
99-4	Catalytic Cracking of Light Cracked Naphtha to Produce Propylene
99-3	Linear Alkylbenzene By Heterogeneous Catalysis (Update)
99-2	ENI Slurry Hydroprocessing Technology For Diesel Fuel
99-1	Basell's Multizone Circulating Reactor (MZCR) Process
98-15	Caprolactam Via Gas Phase Beckmann Rearrangement
98-14	The Alkylene™ Process- Solid Acid Alkylation System
98-13	Methanol To Propylene By The Lurgi MTP Process
98-12	Production of Propylene from C4
98-11	Production of Phenol From Benzene and Hydrogen Peroxide
98-10	Diphenyl Carbonate from Phenol via Diphenyl Oxalates with UBE Technology
98-09	Aromatics Saturation of Diesel via Two-Stage Hydrotreating
98-08	Production of Isobutylbenzene via The Alkylation of Toluene With Propylene
98-07	Hydrocracking Technology for Middle Distillate
98-06	Ethanol via Hydration of Ethylene
98-05	Chloralkali by Electrolytic Cells With Improved Technology
98-04	Production of Pyridine and Beta-Picoline
98-03	Propylene Oxide Via Direct Oxidation Of Propylene
98-02	Acrylonitrile Via The Ammoxidation Of Propane
98-01	Ethylenediamine Via The Amination of Monoethanolamine
97-15	Styrene Via Benzene And Ethane
97-14	Phytoremediation
97-13	Aromatics Complex Economics
97-12	Acetic Acid by the Chiyoda/UOP Acetica™ Process
97-11	Liquid Hydrocarbons from Natural Gas by Exxon's AGC 21 Process
97-10	Glyphosate
97-9	L-Lysine by Fermentation with Recovery by Ion-Exchange
97-8	Lysine-Sulfate Production by Fermentation with Recovery by Spray Drying
97-7	Deep Catalytic Cracking
97-6	One Step Phenol from Benzene by the AlphOx Process
97-5	The Changing Structure of the Chemical Industry
97-4	Supply Chain Management Practices Benchmarks in the Bulk Polymer Industry
97-3	Dow's Ethane Based Process for Ethylbenzene
97-2	Eastman Syngas-based Route for Methyl Methacrylate
97-1	PET Bottle Resin by Pyromellitic Dianhydride Process
96-12	Combinatorial Chemistry
96-11	Ethylene Outlook
96-10	Purified Terephthalic Acid From p-Xylene by Hydrolysis of Dimethyl Terephthalate
96-9	Aliphatic Polyketones from Carbon Monoxide and Olefins by the Shell Liquid-Phase Polymerization Process
96-8	Natural Gas to Liquid Hydrocarbons Technology Based on the Syntroleum Process
96-7	Lactic Acid By Fermentation
96-6	ICI's Polymethyl Methacrylate Tertiary Recycling Technology
96-5	Styrene-Butadiene Rubber
96-4	Hexamethylenediamine And Caprolactam From Adiponitrile by Partial Hydrogenation and Cyclization of Aminocapronitrile
96-3	Titanium Dioxide Technology Trends and Regional Production Cost Benchmarking
96-2	Formaldehyde From Methanol
96-1	Outlook For Propylene Availability in Asia-Pacific
95-1-9	Asahi Methacrolein Oxidative-Esterification Technology
95-1-8	1-Hexene From Ethylene By The Phillips Trimerization Technology
95-1-7	Chlorine From Hydrogen Chloride by The Du Pont Electrolytic Process
95-1-6	Acrylonitrile Via High-Conversion Propane Ammoxidation
95-1-5	Norbornene from Dicyclopentadiene and Ethylene
95-1-4R	Butanediol from n-Butane via Maleic Acid Hydrogenation
95-1-3	Bisphenol A Via Sinopec-Lummus Technology
95-1-2	Caprolactam From Butadiene
95-1-12	Intermaterial Substitution Simulation
95-1-11	Mitsui's Acetone Recycling Technology in Phenol Manufacturing
95-1-10	Butanediol From Butadiene Via Epoxybutene
95-1-1	Tert-Amyl Methyl Ether by the Nextame Process
94-3-3	Petrochemical Industry Cyclicality and Outlook
94-3-2	Polytetramethylene Glycol from Tetrahydrofuran via a Diacetate Intermediate
94-3-1	Natural Gas Pricing Mechanisms
94-2-4	Styrene from Butadiene via 4-Vinylcyclohexene by the Dow Process
94-2-3	Update on Maleic Anhydride From N-Butane Via Fluidized Bed Reactor with an Organic Solvent Absorber
94-2-2	One-Step Oxo Process For 1,3-Propanediol
94-2-1	A Nontower Process for High Bulk Density Detergent Powders
94-1-4	Dendrimer Polymer from Diaminobutane and Acrylonitrile
94-1-3	Chlorine from Hydrogen Chloride by the Carrier Catalyst Process
94-1-2	Lucky Nonphosgenation Process: MDI and PMPPI by Carbonylation
94-1-1	1,4-Butanediol from Maleic Anhydride via Dimethyl Maleate
93-3-4	Xylenes Isomerization
93-3-3	Haldor Topsoe Alkylation Process
93-3-2	Coproduction of Ethylene and Vinyl Chloride by USC/Occidental Chemical Process
93-3-1	Styrene from Dilute Ethylene
93-2-4	Polyethernitrile (PENI) Heat Resistant Polymer From 2,6-Dichlorobenzonitrile and Resorcinol
93-2-3	Maleic Anhydride From n-butane; Fixed Bed Reactor; Organic Solvent Recovery
93-2-2	Methanol Profitability: History and Outlook
93-2-1	Natural Detergent Alcohols by a Vapor-Phase Ester Hydrogenation Process
93-1-4	Ammonia from Natural Gas
93-1-3	The Economic Viability of Using Membranes in Chemical Processes Involving Hydrogen Transport
93-1-2	Quick Estimates of Production Costs
93-1-1	Pyromellitic Dianhydride
92-3-4	Cumene by a Catalytic Distillation Process
92-3-3	Methyl Chloride Manufacture
92-3-2	Purification of Wet Process Phosphoric Acid by a Solvent Extraction Process
92-3-1	Isobutene from Isobutane by Snamprogetti/Yarsintez Dehydrogenation Process
92-2-4	Dimethyl-2,6-naphthalenedicarboxylate from o-Xylene by Amoco Technology
92-2-3	N-(1,3-Dimethylbutl)-Ni-Phenyl-P-Phenylenediamine Via a Novel 4-Nitrodiphenylamine AND 4-Nitrosodiphenylamine
92-2-2	C4 Olefins Utilization
92-2-1	Melamine By the Melamine Chemicals M-II Process
92-1-4	Degradable High Molecular Weight Polymers and Copolymers from Lactic Acid
92-1-3	Mobil Diisopropyl Ether Process
92-1-2	Microbial Insecticides: BacillusThuringiensis
92-1-1	Coproduction of Dimethyl Carbonate and Ethylene Glycol by Transesterification
91-3-4	Styrene from Ethylbenzene Using Membrane Reactors
91-3-3	Acrylamide by Enzymatic Hydration of Acrylonitrile (third generation)
91-3-2	Methanol from Natural Gas by ICI's LCM Process
91-3-1	Polycarbonates From Bisphenol Compounds Via Cyclic Oligomers By GE Plastics Technlogy
91-2-4	Isobutene Production by Isomerization Of N-Butene
91-2-3	Polypropylene By a Vertical Stirred-Bed Process (BASF Technology)
91-2-2	Carbon Monoxide-Ethylene Copolymers
91-2-1	Dihydroxybenzenes From Phenol By Vapor-Phase Hydroxolation
91-1-4	Removal of Mercury From Ethylene Plant Feedstocks and Cracked Gas Streams
91-1-3	Catalytica Acetaldehyde Process
91-1-2	DIMETHYL CARBONATE BY VAPOR-PHASE OXIDATIVE CARBONYLATION
91-1-1	Isobutane Dehydrogenation by Thermal Cracking
90-3-4	Low Pressure Oxo Process with Liquid Recycle
90-3-3	Syngas by the Partial Oxidation of Natural Gas
90-3-2	Isophorone Diisocyanate by a Nonphosgenation Process
90-3-1	Polyethylene Terephthalate Recycle by Depolymerization
90-2-4	Linear Alkylbenzene by Heterogeneous Catalysis
90-2-3	The SDS Polystyrene Process
90-2-2	Urea by UTI's Heat Recycle Process
90-2-1	Tetrahydrofuran from Maleic Acid (Du Pont Process)
90-1-4	Sucralose - A High Intensity, Noncaloric Sweetener
90-1-3	Acetonitrile Recovery in Acrylonitrile Manufacture
90-1-2	Hydrogen Peroxide by the ARCO Process
89-3-3	Options for Procuring Oxygen
89-3-2R	95% Nitrogen from Air by Vacuum Pressure Swing Adsorption
90-1-1	Propylene Oxide by the Olin Process
89-3-4	The Nitto Chemical Methylamines Process
89-3-1	Methanol from Natural Gas by the Lurgi Combined Reformining Process
89-2-4	Nonmanufacturing Overhead Spending in the Chemicals Industry
89-2-3	Acetal Copolymers by an Asahi Chemical Process
89-2-2	Nylon 12,12 Resin from Butadiene by Du Pont Technology
89-2-1	Review of Trends in the PEP Plant Construction Cost Indices and Location Factors
89-1-4	Xylenes Isomerization
89-1-3	Ammonia From Natural Gas by ICI "LCA" Process
89-1-2	Petrochemicals Price Behavior
89-1-1	New Methyl Methacrylate Process Via Acetone Cyanohydrin
88-3-4	Acetic Acid by Low Pressure Carbonylation of Methanol with a Supported Rhodium Catalyst
88-3-3	Vinyl Chloride from EDC Pyrolysis by Tosoh Technology
88-3-2	ETBE Versus MTBE
88-3-1	Applications and Opportunities in Ceramic Coatings
88-2-4	Acrylonitrile from Propane by New BP/SOHIO Patented Process
88-2-3	Methanol from Natural Gas by BNL Low Temperature Catalyzed Synthesis
88-2-2	UOP Styrene Process
88-2-1	Recovery of Sulfur and Hydrogen from Hydrogen Sulfide by Idemitsu's Hybrid Process
88-1-4	Isobutylene, High-Purity, by Phenol Alkylation
88-1-3	Nylon 4,6
88-1-2	Alkylbenzene, Linear, Using HF Catalyst
88-1-1	Hydrogen Sulfide Removal/Unisulf Process
87-3-4	Methyl Methacrylate from Ethylene
87-3-3	Cyclohexanol from Benzene by Asahi Chemical Process
87-3-2	Caprolactam Process (Modified) by Montedipe Technology
87-3-1	MTBE from Butadiene Rich Mixed C4s
87-2-4	Methyl Formate by Dehydrogenation of Methanol
87-2-3	Methyl Ethyl Ketone by Oxidation of n-Butenes
87-2-2	Piperidine from Furfural by Mitsubishi Technology
87-2-1	Hydrogen Peroxide from H2 and Oxygen, DuPont
87-1-4	Dimethyl Carbonate from Methanol
87-1-3	Naphtha Etherification
87-1-2	Ethylene from Ethane by Oxydehydrogenation
87-1-1	Chlorine from Hydrogen Chloride by Oxidation
86-3-4	m-Aminophenol from Resorcinol by Amination
86-3-3	Methanol from Natural Gas with Entrained Catalyst System
86-3-2	Poly(Proypylene Carbonates)
86-3-1	1,4-Butanediol from Allyl Alcohol
86-2-4	Polyphosphazenes
86-2-3	2,6-Xylenol and o-Cresol from Phenol
86-2-2	Sulfuric Acid from Phosphogypsum, DMC-FIPR Process
86-2-1	Allyl Alcohol from Propylene, Showa Denko
86-1-4	Isononyl Alcohols by Hydroformylation
86-1-3	Polymers, Specialty, R&D Trends
86-1-2	p-Xylene Separation, CCCC Process
86-1-1	Nitrogen from Air by Pressure Swing Adsorption
85-3-4	Polyvinyl Chloride by a Continuous Suspension Process
85-3-3	Aromatics from LPG
85-3-2	Hydroquinone from Phenol, Zeolite-Catalyzed
85-3-1	Tetramethylene Diamine for Nylon 4,6
85-2-4	Ethanol from Natural Gas
85-2-3	Molecular Sieve Drying of 190 Proof Ethanol
85-2-2	Ethylene by the Oxidative Dehydrogenation of Ethane
85-2-1	Propylene from Ethylene by Disproportionation
85-1-4	Dow/Union Carbide Process for Mixed Alcohols from Syngas
85-1-3	Fiber S, a Novel Polyamide Blend with the Feel of Cotton
85-1-2	Acrylic Acid Based Superabsorbent Polymer
85-1-1	Trimellitic Anhydride From m-Xylene
84-3-4	C5-C6 Isomerization
84-3-3	Dimerization of Ethylene to Butene-1
84-3-2	Enriched Air by a Membrane Process
84-3-1	A Process for Making Polyethylene Polyamines
84-2-4	Acrylamide by Enzymatic Hydration of Acrylonitrile
84-2-3	Hydrogen Peroxide by Cathodic Reduction of Oxygen
84-2-2	Secondary Butyl Alcohol via Direct Hydration
84-2-1	Lurgi Isothermal Styrene Process
84-1-4	Cumene by Combined Reaction/Distillation
84-1-3	Hydrogen by Methanol Decomposition
84-1-2	Adipic Acid via Butadiene Carbonylation
84-1-1	Carbon Black by the Oil-Furnace Process, with Oxygen as the Oxidant Gas
83-3-4	Direct Process for Ethylene Glycol from Syngas
83-3-3	Ethylene Glycol from Formaldehyde via Glycolaldehyde
83-3-2	Chlorinated Polyethylene
83-3-1	Tetrahydrofuran and 1,4-Butanediol from Acetylene and Formaldehyde
83-2-4	Tetramethylxylylene Diisocyanate by American Cyanamid Technology
83-2-3	Group-Transfer Polymerization Applications
83-2-2	New Nonphosgenation Process for MDI by Asahi Chemical Industry
83-2-1	Ammonia from ICI's Low Pressure "AMV" Process
83-1-4	Recovery of Hydrogen Chloride
83-1-3	Sodium Nitrilotriacetate
83-1-2	p-Cresol from p-Toluenesulfonic Acid
83-1-1	para-Xylene from Toluene and Methanol
82-3-3	Concentrated Nitric Acid (Espindesa Technology)
82-3-2	Urea Granulation by the Fluid Bed Process (NSM Technology)
82-3-1	Urea by The Isobaric Double Recycle Process
82-2-3	Anthraquinone from Toluene
82-2-2	1,4-Butanediol and Tetrahydrofuran from Butadiene
82-2-1	Ethylene from Methane-Chlorine Reaction System
82-1-3	Ethylene from Hydrocracked Vacuum Gas Oil Produced by the Linde AG Process
82-1-2	Ethylene from Hydrocracked Vacuum Gas Oil Produced by the Unicracking/FPP
82-1-1	Bisphenol A from Phenol and Acetone With an Ion Exchange Resin Catalyst—Union Carbide Technology
81-3-3	Synthetic Zeolites in Commercial Applicaitons
81-3-2	Styrene from Toluene
81-3-1	Recent Trends in the PEP Plant Construction Cost Indices and Location
81-2-3	Gasoline from Natural Gas via Methanol/Mobil
81-2-2	Polypropylene, El Paso Process Using Mitsui/Montedison Catalyst
81-2-1	Ethylene Glycol via Oxalate Esters
81-1-3	Caprolactam vis SNIA Viscosa Process
81-1-2	Methyl Isobutyl Ketone by Direct Condensation of Acetone
81-1-1	Caustic Soda from Trona Caustization Process
80-3-3	1,4-Butanediol by Electrochemical Synthesis
80-3-2	Ethylene from Synthesis Gas
80-3-1	Chemicals via Butylene Oxides by Hydroperoxide Process
80-2-3	Propylene from Propane by Catalytic Dehydrogenation
80-2-2	Phenol from Toluene, Coproduct Formaldehyde
80-2-1	Phenol from Ethylbenzene, Coproduct VA
80-1-4	PMPPI from Nitrobenzene by Carbonylation
80-1-3	Ethylene by Methanol Homologation
80-1-2	Recycle C4s for Ethylene Production
80-1-1	Supplementary LPG Feed for Naphtha Crackers
79-3-4	Ethylene from Ethanol
79-3-3	p-Methylstyrene
79-3-2	Ethylene from Methanol
79-3-1	Olefins, Light, from Ethylene
79-2-4	Methyl Methacrylate from Isobutylene
79-2-3	p-Xylene from Non-aromatics
79-2-2	Phosgene
79-2-1	Ethylene Glycol via Ethylene Carbonate
79-1-4	Methyl Methacrylate from Allyl Acetate
79-1-3	PMPPI and MDI from Nitrobenzene
79-1-2	MTBE from n-Butane
79-1-1	Polyethylene, High Density, Gas Phase Process
78-3-4	Acetic Acid, Low Pressure Carbonylation of Methanol
78-3-3	Butene-1 from MTBE Plant Raffinate
78-3-2	Isomerization of n-Butenes in MTBE Manufacture
78-3-1	Methyl Methacrylate from Ethylene
78-2-4	Methyl Methacrylate from t-Butanol
78-2-3	HMDA by Electrolytic Dimerization of Acrylonitrile
78-2-2	Anthraquinone from Naphthalene
78-2-1	Ethylene Glycol via Oxalate Esters
78-1-4	Synthesis Gas Costs
78-1-3	Methyl Tertiary-Butyl Ether
78-1-2	Nitrobenzene by Adiabatic Nitration
78-1-1	Ethylene from Crude Oil, UCC/Kureha/Chiyoda
77-3-4	Propylene Glycol
77-3-3	Ethylene from atmospheric Gas Oil
77-3-2	Vinyl Acetate, Carbonylation of Methyl Acetate
77-3-1	Polyethylene, Low Density, Union Carbide Process
77-2-5	Polymeric Polyisocyanates (PMPPI) or Polymeric MDI by Carbonylation Process
77-2-4	Terephthalic Acid (Medium Purity) from p-Xylene
77-2-3	Toluene Diisocyanate by Carbonylation Process via Urethane
77-2-2	Ethylene from Naphtha, Millisecond Cracking
77-2-1	Maleic Anhydride from Butene, Benzene, Butane
77-1-4	Styrene from Butadiene
77-1-2	Styrene Economics
77-1-1	Propylene Oxide from Propylene Glycol Monoacetate
76-3-5	Propylene Oxide by Perpropionic Acid Epoxidation
76-3-4	Hydrogen Cyanide from Methanol
76-3-3	Ethylene from Carbon Monoxide and Hydrogen
76-3-2	An Inorganic Process for Making Hydrogen Peroxide
76-3-1	Acetic Anhydride from Dimethyl Ether or Methyl Acetate
76-2-4	Phenol by Direct Oxidation of Benzene
76-2-3	Terephthalic Acid from Toluene via Dipotassium Terephthalate
76-2-1	Methyl Methacrylate from Isobutylene via Methacrylic Acid
76-1-4	Uranium Recovery from Wet Process Phosphoric Acid
76-1-3	Styrene from Toluene and Ethylene via Stilbene
76-1-2	Fluorocarbon Turbines
76-1-1	Methyl Tertiary-Butyl Ether
75-3-4	Chlorinated Polyvinyl Chloride
75-3-3	Acetic Acid from Carbon Monoxide and Hydrogen
75-3-2	Power Costs for Chemical Companies Operating in the Houston, Texas Area
75-3-1	Economics of Alternative Olefin Feedstocks
75-2-4	Ethylene Oxide Update
75-2-3	The PEP Construction Cost Index
75-2-2	Outlook for Ammonia Industry
75-2-1	Maleic Anhydride From Normal &s or Benzene
75-1-5	Ethylene By Hydrocracking
75-1-4	Plastic Bottles for Carbonated Beverages Polyester Versus Nitrile
75-1-3	Recovery of By-Product Maleic Anhydride in Phthalic Anhydride Plants
75-1-2	Closed Cycle Thermal Reactions Compared with Electrolysis for the Production of Hydrogen
75-1-1	Ion-Exchange Membrane Cells for Electrolysis of Sodium Chloride
X-3-4	Energy Demand, U.S. Chemical Industry
X-3-3	Ethylene Glycol via Glycol Esters
X-3-2	Hydrogen Cyanide
X-3-1	Maleic Anhydride from Butene or Benzene
X-2-C	Ethane Recovery from Natural Gas
X-2-A	Aromatics BTX, Value
X-2-4	Detergent Alcohols Outlook
X-2-2	Ethylene Glycol from Synthesis Gas
X-1-5	Vapor Recompression
X-1-4	Styrene-Aniline Cooproduction
X-1-3	Environmental Regulations
X-1-2	Polypropylene
X-1-1	Ethylene and Coproducts, Value
IX-3-5	Terephthalic Acid from p-Xylene, Description of Maruzen Process
IX-3-4	Toluene Steam Dealkylation
IX-3-3	Ethylene Glycol from Synthesis Gas
IX-3-2	Ethylene from Natural Gas
IX-3-1	Synthesis Gas from Natural Gas or Coal
IX-2-5	Formaldehyde from Natural Gas
IX-2-4	Ethylene Glycols, Direct Oxidation
IX-2-3	Hydroquinone Processes
IX-2-2	Aromatics Extraction
IX-2-1	Trimellitic Anhydride from Pseudocumene
IX-1-6	PolyvinylChloride, Vapor Phase Bulk Polymerization
IX-1-5	Aniline, Amination of Benzene
IX-1-4	Terephthalic Acid from p-Xylene through Terephthalonitrile
IX-1-3	Improvement on the Manufacture of Ethylene Oxide By Using a New Silver Catalyst
IX-1-2	Methanol from Non-Hydrocarbon Sources
IX-1-1	Cost of Utilities

Consolidated Reports

Report Number	Report Name

CR001	Wide Range Linear Alpha Olefin Processes
CR002	On-Purpose Linear Alpha Olefin Processes
CR003	Propylene Oxide
CR004	Oxo Alcohols
CR005	On-Purpose Acetic Acid
CR006	Polypropylene Impact Copolymer

Yearbook

Access the world’s largest online process economics database. Updated quarterly, the PEP Yearbook includes:

Production economic data for more than 1,500 processes used to manufacture over 600 chemical, polymer, refining and biotech products
Estimates for raw material and utility requirements
Capital and production costs for three plant capacity levels
Customization of plant capacity for quick scaling analysis
Cost information for the US Gulf Coast, Germany, Japan and China, with limited process coverage for Canada and Saudi Arabia
Conversion of data to either English or metric units

Experience PEP’s user-friendly interface

With PEP, you can visualize each step, from the initial process flow to estimated capital investment costs and more.

Follow Chemical Research and Analysis

Video Oct 11, 2022

Chemical Markets: From the Pandemic to Energy Transition

Blog Jul 12, 2021

1,4-Butanediol capacity expands once again– Oh no, more BDO! (But at least this new stuff will be green.)

Blog Jan 16, 2021

What does “Green” really mean?

Blog Apr 28, 2020

Basic Chemicals - The Curve is Already Flattened!

Industry Success Stories

Alberta's Industrial Heartland Association Uncovers Strengths and Attracts Unprecedented Interest from Global Investors

Dedicated to promoting sustainable development of Canada’s largest hydrocarbon processing region, this leading association gained objective, third party expertise/credibility for investor research that identified Alberta's 4 most competitive chemical products -- and brought 11 companies to Alberta for tours and discussions .

Learn more about our client’s successes

Resources

Ethylene Manufacturing Technology Case Study

Linear Alpha Olefins (LAO) Case Study

{}

You may be interested in

On Purpose Linear Alpha Olefin Processes – Chemical production and investment cost

Acetylene – Chemical production and investment cost

Advances in Oxidation Technology – Chemical production and investment cost

Alkylation for Motor Fuels – Chemical production and investment cost

Anionic Surfactants – Chemical production and investment cost

Aromatics BTX – Chemical production and investment cost

Bimodal Linear LowDensity Polyethylene – Chemical production and investment cost

Biodegradable Polymers – Chemical production and investment cost

Biotechnology Separation Processes – Chemical production and investment cost

Carbon Capture from Coal Fired Power Generation – Chemical production and investment cost

Copolyesters – Chemical production and investment cost

Ethylene Plant Enhancement – Chemical production and investment cost

EthyleneVinyl Acetate Copolymers – Chemical production and investment cost

Foamed Plastics – Chemical production and investment cost

Hetercyclic Nitrogen Compounds – Chemical production and investment cost

High Purity Silicon 184 – Chemical production and investment cost

Iso-C4 Processes – Chemical production and investment cost

Isoprene – Chemical production and investment cost

{"items" : [ {"name":"facts","url":"https://cdn.ihsmarkit.com/www/pdf/PEP-Brochure.pdf","enabled":true,"desc":"Download product information","alt":"Download product information","mobdesc":"PDF","mobmsg":"Download product information"},{"name":"login","url":"http://chemical.ihs.com/Welcome/index.shtml","enabled":true,"desc":"Product Login for existing customers","alt":"Login","large":true,"mobdesc":"Login","mobmsg":"Product Login for existing customers"},{"name":"sales","override":"","number":"[num]","enabled":true,"desc":"Call Sales [num]","proddesc":"[num]","alt":"Call Sales</br>[num]","mobdesc":"Sales","mobmsg":"Call Sales: [num]"}, {"name":"share","enabled":true,"desc":"<strong>Share</strong>","mobdesc":"Share","options":[ {"name":"facebook","url":"https://www.facebook.com/sharer.php?u=http%3a%2f%2fprod.azure.ihsmarkit.com%2fcommodityinsights%2fen%2fci%2fproducts%2fchemical-technology-pep-index.html","enabled":true},{"name":"twitter","url":"https://twitter.com/intent/tweet?url=http%3a%2f%2fprod.azure.ihsmarkit.com%2fcommodityinsights%2fen%2fci%2fproducts%2fchemical-technology-pep-index.html&text=Chemical+Process+Economics+Program+PEP","enabled":true},{"name":"linkedin","url":"https://www.linkedin.com/sharing/share-offsite/?url=http%3a%2f%2fprod.azure.ihsmarkit.com%2fcommodityinsights%2fen%2fci%2fproducts%2fchemical-technology-pep-index.html","enabled":true},{"name":"email","url":"?subject=Chemical Process Economics Program PEP&body=http%3a%2f%2fprod.azure.ihsmarkit.com%2fcommodityinsights%2fen%2fci%2fproducts%2fchemical-technology-pep-index.html","enabled":true},{"name":"whatsapp","url":"https://api.whatsapp.com/send?text=Chemical+Process+Economics+Program+PEP http%3a%2f%2fprod.azure.ihsmarkit.com%2fcommodityinsights%2fen%2fci%2fproducts%2fchemical-technology-pep-index.html","enabled":true}]}, {"name":"rtt","enabled":true,"mobdesc":"Top"} ]}

Customer Logins

My Logins