Intratec Solutions Portfolio

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Industries Covered:

Propylene
Ethylene
Butadiene
Butanediol
Acrylic Acid
Acrylonitrile
Adipic Acid
Styrene Butadiene Rubber
Polypropylene
Propylene Oxide
LLDPE
LDPE
Ethylene Oxide
Ethylene Glycol
Ethanol
Nitrile Butadiene Rubber
Butanol
Linear Alpha Olefins
Ethylene Dichloride
Vinyl Chloride
Polyvinyl Chloride
PVC
Chlorine
Polycarbonate
Diphenyl Carbonate
Nicotinamide
Methyl Methacrylate
p-Xylene
Xylene, Para
Paraxylene
Phenol
Isobutanol
Polyethylene Terephthalate
PET
Terephthalic Acid
Hydrogen
Sodium Hypochlorite
Sodium Hypochlorite Solution
Methionine
Isoprene
Toluene Diisocyanate
TDI
Phosgene
Methylene Diphenyl Diisocyanate
MDI
Lactic Acid
Lysine
Biodiesel
Diesel
Succinic Acid
3-Hydroxypropionic Acid
Isosorbide
Hexane
Polybutylene Succinate
HDPE
Propanediol
Polylactic Acid
Polytrimethylene Terephthalate
Tetrahydrofuran
Maleic Anhydride
Allyl Alcohol
Syngas
Acetylene
Butadiene Rubber
Acetaldehyde
Polyisoprene
EPDM Rubber
Chloroprene
Butene
Hydrogen Cyanide
FDCA
Reformate
Benzene
Dinitrotoluene
Toluenediamine
Dimethyl Carbonate
Isopropanol
Polyacrylonitrile
Carbon Fiber
Carboxymethyl Cellulose
Hydroxypropyl Methyl Cellulose
Acrylic Maleic Copolymer
Carrageenan
Ethylhexanol
2-Ethylhexanol
Isononanol
Isodecanol
Octene
2-Propylheptanol
Hexene
Methanol
Polyalphaolefin
Chloromethane
Chlorosilanes
Siloxanes
Allyl PEG
Silicone
Formalin
Phenol-Formaldehyde Resins
Urea Formaldehyde Resins
Melamine Resin
Polyoxymethylene
Neopentyl Glycol
Pentaerythritol
Trimethylolpropane
Hydrogen Peroxide
Polyurethane
Polyether
Propylene Glycol
Glycerol
Cumene
Bisphenol A
BPA
Allyl Chloride
Epichlorohydrin
Epoxy Resins
Titanium Dioxide
Propanol
n-Propanol
Phthalic Anhydride
Isophthalic Acid
Dicyclopentadiene
Methacrylic Acid
Unsaturated Polyester Resin
Sodium Polyacrylate
Neoprene
Polychloroprene
Ammonia
Urea
Nylon
Nylon 6
Nylon 66
Oxygen
Argon
Nitrogen Gas
Nitrogen
Caustic Soda
Hydrochloric Acid
Acrylonitrile Butadiene Styrene
Polystyrene
Nitrobenzene
Aniline
HDI
IPDI
Nitric Acid
m-Xylene
Ethylbenzene
Styrene
TBBPA
Ethylene Vinyl Acetate
Calcium Carbide
Phenthoate
Polybutylene Terephthalate
Caprolactam
Polyvinylidene Chloride
Sodium Chlorate
Chlorine Dioxide
Sodium Chlorite
Calcium Hypochlorite
Carbon Monoxide
Isobutylene
Acetic Acid
Acetic Anhydride
Aromatics BTX
Tanespimycin
Citric Acid
Sodium Pyruvate
Riboflavin
Alpha-Cyclodextrin
Acetone
Methyl Acrylate
Ethyl Acrylate
Cyclohexane
Dimethyl Terephthalate
Sulfuric Acid
Furfuryl Alcohol
Vinyl Acetate
Oxalic Acid
Polyethylene Furanoate
Polypropylene Carbonate
Electricity
Styrene Acrylonitrile Resin
Sodium Lauryl Sulfate
TEA-Lauryl Sulfate
Ammonium Lauryl Sulfate
Sodium Lauryl Ether Sulfate
Trichlorfon
Dichlorvos
Azodicarbonamide
Linear Alkylbenzene
Tricalcium Phosphate
Diammonium Phosphate
NPK Fertilizer
Calcium Carbonate
Rifampicin
Amoxicillin
Cefalotin
Pyrantel Pamoate
NP Fertilizer
Ammonium Nitrate
Calcium Ammonium Nitrate
Linear Alkylbenzene Sulfonate
Activated Carbon
Aluminum Chloride
Aluminum Sulfate
Ammonium Chloride
Invert Sugar
Aluminum Hydroxide
Barium Chloride
Barium Nitrate
Bronopol
Titanium Butoxide
Caffeine
Calcium Gluconate
Chromium Oxide
Copper Sulfate
Calcium Sulfate
Diethyl Sulfate
Magnesium Sulfate
Paracetamol
Phenethyl Alcohol
Polyaluminum Chloride
Potassium Chlorate
Potassium Iodide
Silicon Dioxide
Salicylic Acid
Sebacic Acid
Silica Gel
Sulfur Hexafluoride
Thiram
Ziram
Gasoline
DMF
Ethylhexyl Acrylate
2-Ethylhexyl Acrylate
Dibutyl Ketone
Hydroxymethylfurfural
Itaconic Acid
Methyl Ester Sulfonate
Polyhydroxybutyrate
Propionic Acid
Hexamethylenediamine
11-Aminoundecanoic Acid
Laurolactam
Monoethanolamine
Butyl Acrylate
Acrolein
Methional
Butyraldehyde
MTBE
Ethyl Tert-Butyl Ether
Sodium Cyanide
Ethyl Acetate
Adiponitrile
Toluene
Valeraldehyde
KA Oil
Cyclohexanone
Lactide
Cyclododecanol
Cyclododecanone
Glucose
Succinic Anhydride
Propionaldehyde
Isobutane
p-Nitrophenol
Nonwoven
Carbon Disulfide
Dimethyl Ether
Phosphoric Acid
2-Ethylhexanoic Acid
Nitrile Gloves
Carbon Black
CO2 Capture Strategies
Ethylidene Norbornene
Rutile
Titanium Tetrachloride
Isobutylbenzene
Acrylamide
Polyacrylamide
Sodium Silicate
Methyl Mercaptan
Iron Pyrite Gas
Butenes
Ammonium Sulfate
Soda Ash
Methyl Isobutyl Ketone
Diethylene Glycol
Xylene
Xylene, Mixed
Mixed Xylenes
o-Xylene
Xylene, Ortho
Orthoxylene
SBR
Methyl Ethyl Ketone
Petroleum Coke
Dioctyl Phthalate
Polyvinyl Alcohol
Coconut Oil
Butyl Acetate
o-Cresol
Cresol, Ortho
Ortho Cresol
Paraformaldehyde
Aluminum Oxide
Resorcinol
Benzyl Alcohol
Chloroform
Methylene Chloride
Formic Acid
Chromium Trioxide
Aluminum Fluoride
Hydrogen Fluoride
Hydrofluoric Acid
Iodine
Lead Monoxide
Nickel Chloride
Phosphorus
Potassium Hydroxide
Sodium Aluminum Hexafluoride
Sodium Sulfides
Nickel Sulfate
Sodium Bicarbonate
Potassium Permanganate
PTFE
Polyisobutylene
Butyl Rubber
Oleic Acid
Lithium Carbonate
Isoprene Isobutyl Rubber
Borax
Monoammonium Phosphate
Phosphorus Pentoxide
Melamine
Potassium Chloride
Potassium Sulfate
Zinc
Silver
Platinum
Lead Metal
Lead
Aluminum Metal
Aluminum
Copper
Diethyl Ether
Diethanolamine
Potassium Nitrate
Urea Ammonium Nitrate
Triple Superphosphate
Paraffin Wax
Coal Tar Pitch
Petroleum Jelly
Ethane
Superphosphate
Single Superphosphate
Iron Ore
Nickel
Tin
Petroleum Bitumen
HMDA
Potassium Carbonate
Tert Butyl Alcohol
Tert-Butyl Alcohol
Rock Phosphate
Sulfur
Bromine
p-Cresol
Cresol, Para
Para Cresol
Acetonitrile
Sodium Hypochlorite
Triethylene Glycol
Silicon Carbide
Polyvinyl Acetate
Sodium Nitrate
Palladium Metal
Palladium
Aluminum Scrap Metal
Aluminum Scrap
Hot Rolled Carbon Steel Coil
CS, Hot Rolled Coil
Hot Rolled CS Coil
Carbon Steel
Hot Rolled Carbon Steel Plate
CS, Hot Rolled Plate
Hot Rolled CS Plate
Cold Rolled Carbon Steel Coil
CS, Cold Rolled Coil
Cold Rolled CS Coil
Hot Dipped Galvanized Coil
CS, Hot Dipped Galv Coil
Hot Dipped Galv Coil
Electro Zinc Coated Coil
CS, EZC Coil
Wire Rod
CS, Wire Rod
H Beam
CS, H Beam
Equal Angle Bar
CS, Equal Angle Bar
Hot Rolled Stainless Steel Coil
SS, Hot Rolled Coil
Hot Rolled SS Coil
Stainless Steel
Hot Rolled Stainless Steel Plate
SS, Hot Rolled Plate
Hot Rolled SS Plate
Cold Rolled Stainless Steel Coil
SS, Cold Rolled Coil
Cold Rolled SS Coil
Cold Drawn Bar
SS, Cold Drawn Bar
Cobalt Metal
Cobalt
Phosphorus Trichloride
Zinc Oxide
Sodium Tripolyphosphate
Lithium Hydroxide
Reinforcement Bar
CS, Reinforcement Bar
Copper Oxide
Cellulose Acetate
Nitrocellulose
MDI Polyurethane
PU MDI
Synthesis Gas
Naphthalene
Aluminum Alloy
Copper Scrap
Ferrous Scrap
Silicon
Titanium
Natural Rubber
Cobalt Hydroxide
Molybdenum Oxide
Ammonium Hydroxide
Cooling Water
Steam
Process Water
Demineralized Water
Chilled Water
Compressed Air
Naphtha
Propane
Butane
Coal
Natural Gas
Crude Oil
Kerosene
Fuel Oil

Results 1 - 12 of 12

Bimodal HDPE from Ethylene and 1-Butene (Similar to BORSTAR) Commodity Production Costs

This report presents the economics of Bimodal High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-butene in the United States. The process examined in this report uses a slurry loop process similar to Borealis BORSTAR. The reaction system consists of a slurry loop and a gas phase reactor.

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Bimodal HDPE from Ethylene and 1-Butene (Similar to Hostalen) Commodity Production Costs

This report presents the economics of Bimodal High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-butene in the United States, using a slurry process similar to LyondellBasell Hostalen and Mitsui CX. The polymerization is carried out in three CSTRs using hexane as diluent and a high-activity Ziegler catalyst system.

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Bimodal HDPE from Ethylene and 1-Butene (Similar to Spherilene) Commodity Production Costs

This report analyses the economics of Bimodal High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-butene in the United States, using a gas-phase process similar to LyondellBasell Spherilene. In this process, ethylene and 1-butene are copolymerized using two fluidized-bed reactors in series.

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Bimodal HDPE from Ethylene and 1-Butene (Similar to UNIPOL) Commodity Production Costs

This analysis presents the economics of Bimodal High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-butene in the United States. The process examined is similar to Univation UNIPOL process. In this process, ethylene is polymerized in combination with 1-butene in the gas-phase in a reaction loop consisting of a fluidized-bed reactor, a compressor and a heat exchanger.

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Bimodal HDPE from Ethylene and 1-Hexene (Similar to MarTECH ADL) Commodity Production Costs

This report analyses the economics of Bimodal High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-hexene in the United States. The process examined in this report uses two slurry loop reactors, similar to Chevron Phillips’ MarTECH Advanced Dual Loop (ADL) and INEOS INNOVENE S.

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Bimodal HDPE from Ethylene and 1-Hexene (Similar to Spherilene) Commodity Production Costs

This report analyses the economics of Bimodal High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-hexene in the United States, using a gas-phase process similar to LyondellBasell Spherilene. In this process, ethylene and 1-hexene are copolymerized using two fluidized-bed reactors in series.

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Bimodal HDPE from Ethylene and 1-Octene (Similar to Spherilene) Commodity Production Costs

This report analyses the economics of Bimodal High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-octene in the United States, using a gas-phase process similar to LyondellBasell Spherilene. In this process, ethylene and 1-octene are copolymerized using two fluidized-bed reactors in series.

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HDPE from Ethylene and 1-Butene (Similar to Spherilene) Commodity Production Costs

This report analyses the economics of High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene and 1-butene in the United States. The process examined in this report uses a gas-phase polymerization in a single reactor similar to LyondellBasell Spherilene S.

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Homopolymer HDPE from Ethylene (Similar to Advanced SCLAIRTECH) Commodity Production Costs

This report examines the costs related to High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene in the United States. The process examined in this report uses a solution process similar to NOVA Chemicals Advanced SCLAIRTECH. The polymerization is carried out in two continuous-stirred-tank reactors (CSTR)

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Homopolymer HDPE from Ethylene (Similar to MarTECH Loop Slurry) Commodity Production Costs

This report presents the economics of High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene in the United States, using a slurry loop process similar to Chevron Phillips MarTECH and INEOS INNOVENE S. In this process, the monomers are polymerized in a single loop reactor.

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Homopolymer HDPE from Ethylene (Similar to Spherilene) Commodity Production Costs

It presents the economics of High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene in the United States. The process examined in this report uses a gas phase process similar to LyondellBasell Spherilene. The polymerization is conducted in a single fluidized-bed reactor.

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Homopolymer HDPE from Ethylene (Similar to UNIPOL) Commodity Production Costs

This report analyses the economics of High Density Polyethylene (HDPE) production from polymer grade (PG) ethylene in the United States. The process examined in this report is similar to Univation UNIPOL and INEOS INNOVENE G. In this process, ethylene is polymerized in the gas-phase in a reaction loop consisting of a fluidized-bed reactor, a compressor and a heat exchanger.

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