News from Abroad


 GREEN AVIATION
 Syzygy’s Uruguay SAF project gets Velocys   Bharat Jyoti Impex

 as Fischer-Tropsch technology licensor  AVAILABLE REGULARLY


 Syzygy  Plasmonics,  the  US-based   “This project proves that profi table    2 Acetyl ButyroLactone Acetophenone   Acetyl Acetone   Acrylonitrile    Methyl Iso Propyl Ketone   Methyl Propyl Ketone
                                                           Methyl Salicylate   Methyl Stearate   Methyl Stearate / Palmitate
         Adipic Acid   Allyl Alcohol   Allyl Chloride   Allylamine
 electrifi ed  biogas-to-SAF  technology   SAF production doesn’t have to wait on    Alpha-Methyl Styrene   4 Amino Phenol   Amino Ethyl Ethanol Amine    2 Methyl THF   Methyl Tin Mercaptide   Mono Cyclohexylamine
 developer, has taken on board Fis-  future infrastructure,” said Trevor Best,    Amino Guanidine Bicarbonate   Anisole   Antimony Trioxide 99.8%    Mono Ethyl Amine 70%   Mono Isopropylamine 70% / 99%
 cher-Tropsch  technology  supplier  CEO  of  Syzygy  Plasmonics.  “With    Azelaic Acid   Barium Carbonate   Barium Nitrate 99%    Monoglyme   N Butyraldehyde   N Ethyl Pyrrolidone
 Velocys, for its sustainable  aviation   Velocys, we are bringing in a complete,    1,2,3-Benzotriazole   1,2,3 Benzotriazole 99.5%    N Pentane 95%   N Vinyl Pyrrolidone
         Benzoyl Chloride [99.5%] China   Biphenyl
                                                           N,N Dimethyl Cyclohexylamine   N,N-Dicyclohexyl Carbodiimide
 fuel (SAF) project in Uruguay.  modular solution  that drives  down    Boron Trifluoride Etherate   1,3-Butane Diol    N,O-Bis (Tri Methyl Silyl) Acetamide
 overall  production  costs  and  is ready    1,4 Butane Diol [DAIREN]   2 Butyne 1,4 Diol    NACOL 10-99% (N Decanol) SASOL Germany
 The ‘NovaSAF 1’ facility will con-  to  scale.  Uruguay  is  only  the  start,”    Caproic Acid   Cerium Oxide   Cesium Carbonate    NACOL 6 99% (N Hexanol)   NACOL 8 99% (N Octanol)
 vert dairy waste and biogas into drop-  he remarked.   Cetyl Chloride   CIS-2-Butene-1,4-Diol   Crotonic Acid    N-Amyl Alcohol (N-Pentyl Alcohol)   N-Butyl Amine
 in jet fuel with a nameplate capacity of  eliminates the need for water-intensive    Cyanuric Chloride   Cyclohexanol   Cyclopentanone    N-Decanol   N-Heptane 99%   N-Hexane 99%
                                                           N-Hexyl Alcohol (99% & 98%)   Nitro Ethane
         Cyclopropylamine   D - Tartaric Acid   D-Camphor Sulphonic Acid
 500,000 gallons annually, using only  steam reforming or expensive electro-  The  fi nal  investment  for  the    Di Cyclohexylamine   Di Ethyl Ketone   Di Ethyl Malonate    Nitro Methane   N-Methyl 2 Pyrolidone   N-Methyl Piperazine
 renewable electricity  and waste gas –  lysers, radically simplifying  the  SAF  ‘NovaSAF 1’ project is expected in Q4    Di Ethyl Sulphate   Di Iso Butyl Ketone [DIBK]    N-Pentane 99%   1-Octanol (C8)   1-Octene
 without  green  hydrogen and complex  value chain.  2025, with the start of operations some    Di Methyl Acetamide [Henan Junhua]   Di Methyl Malonate    Ortho Chloro Benzaldehyde   Para Benzoquinone
 gasifi cation.  time in Q1 2027.   Di Phenyl Carbonate   Di Sodium Phosphate Anhydrous    Para Chlorobenzaldehyde   Para Cresol
 To convert that syngas into high-   2,4 Di Tertiary Butyl Phenol   Dibasic Ester    Para Hydroxybenzaldehyde   Paraformaldehyde 96%
                                                           Pelargonic Acid   Perchloric Acid
         DIBOC (Di Tert. Butyl Dicarbonate)
 At  the heart of  the project is  yield jet fuel, Syzygy  has  selected   “With its modular design and feed-   Dibromomethane (Methylene Di Bromide)   Dicyclopentadiene    Petroleum Ethers 40-60 / 60-80 / 80-100 / 100-120 etc.
 Syzygy’s  light-driven  GHG  e-Reforming  Velocys and its microFTL technology,  stock fl exibility, NovaSAF 1 is built for    Di-Ethyl Carbamyl Chloride   Diethyl Hydroxylamine    Phenyl Ethyl Alcohol   Phenyl Ethyl Amine [ R+ ; DL ]
 technology, which produces the ideal  known for reliability and for maximis-  replication  across 50,000+ untapped    Diethyl Oxalate   Diglyme   Diisobutylene   Diisopropylamine    Phosphorous Pentoxide   Pivaloyl Chloride   Potassium Bi Carbonate
 2:1  syngas ratio for Fischer-Tropsch  ing fuel output, both critical factors in  biogas sites worldwide - unlocking a    Diisopropyl ethylamine   Diisopropyl Succinate    Potassium Persulphate   Potassium Tertiary Butoxide
                                                           Potassium Thioacetate   Propionaldehyde   Propionic Anhydride
         2,2-Dimethoxy Propane   Dimethyl Oxalate   Di-N-Propyl Amine
 (FT) synthesis directly from biogenic  driving down the total cost required to  new  era  of  profi table,  policy-aligned    DL Alfa Phenyl Ethyl Amine   D-Ribose   DMSO (Hubei Xingfa)    Pyrogallol   2-Pyrrolidone   Quinoline
 methane  and  CO₂.  This  breakthrough  produce synthetic fuel.  SAF production,” Syzygy said.   Ethyl Benzene   Ethyl Cyclo Hexane   2 Ethyl Hexyl Bromide    Resorcinol (China)   R Phenyl Ethylamine
         2-Ethylhexyl Thioglycolate   Ethyl Nicotinate   Ethyl Silicate   Salicylic Acid Technical / Pure   Secondary Butanol (China)
 WATER TREATMENT    Ethylene Glycol Diacetate (EGDA)   Fluorobenzene   Formamide    Sodium Dichloroisocyanurate (56%) Granule
 Toray’s reverse osmosis membranes to be used    Formic Acid 99%   Fumaric Acid   Furfuraldehyde   Furfuryl Alcohol    Sodium Diethyldithiocarbamate   Sodium Ethoxide
         Furfurylamine   Gamma Amino Butyric Acid (4 Amino Butyric Acid)
                                                           Sodium Ethoxide solution in Ethanol / Methanol
 in desalination plant in Saudi Arabia   Gamma Butyrolactone   Glutaraldehyde 50%   Glycine    Sodium Methoxide   Sodium Sulphite (Aditya Birla -Thailand)
                                                           Sodium Sulphite 98%   Sodium Sulphite Tech 90%
         Glycolic Acid 70%   Glyoxal 40%   Glyoxylic Acid 50%
         Guanidine Carbonate   Guanidine HCl   Guanidine Thiocyanate    Sodium Tertiary Butoxide   Sorbitol Powder   Stearyl Bromide
 Japanese chemicals fi rm, Toray In-   Guanine   Heptane [mix]   1,6-Hexane Diol   Hippuric Acid    Stearyl Palmitate   Strontium Carbonate   Succinic Acid
                                           
 dustries, t has supplied reverse osmosis    12 Hydroxy Stearic Acid   Imidazole   Isobutylamine   Isopropyl Palmitate    Succinic Anhydride   Sulfolane Anhydrous
 (RO) membranes  to the Shuaibah 3    Iso Octa Decyl Alcohol   Isovaleraldehyde   Itaconic Acid    Tert. Butyl Amine   Tertiary Amyl Alcohol
         L + Tartaric Acid   Lactic Acid   Lanthanum Carbonate
                                                           Tertiary Butyl Acetate   Tetraglyme (Tetra Ethylene Glycol)
 IWP seawater desalination  plant in    Lauric / Myristic / Palmitic / Oleic / DCFA / Caprylic Acid    Tetra Hydro Furfuryl Alcohol   THF (Dairen, Nan Ya)
 Saudi Arabia through Dammam-based    Lithium Aluminium Hydride   Lithium Amide    Thioacetamide   Thiocyanates: Ammonium / Sodium / Potassium
 subsidiary  Toray Membrane Middle    Lithium Carbonate   Lithium Carbonate [Equivalent to I.P.]    Thioglycolic Acid 80%   TMOF / TEOF / TMO Acetate
 East  LLC.  The  plant’s daily  potable    Lithium Hydroxide   Lithium Hydroxide Anhydrous    Tolyl Triazole   Tolyltriazole Granular   Tri Ethyl Citrate
         Lithium Hydroxide Monohydrate LIOH : 57.7% Min
                                                           Tri Fluoro Acetic Acid   Tri Fluoro Acetic Anhydride
 water production  capacity is 600,000    Lithium Metal 99% / 99.9%   L-Proline   M. P. Diol    2,2,2 Tri Fluoro Ethanol   2,2,2-Tri Fluoro Ethylene
 cubic metres.  This  facility provides    Malonic Acid   Malononitrile   Maltol   Meta Cresol 99.5%    Tri Isodecyl Stearate   Triacetin (Glycerine Triacetate)
 stable  supplies of drinking water to    Meta Hydroxy Benzoic Acid   Meta Para Cresol [Meta 60%]    1,2,4-Triazole & its Sodium Salt
 Mecca, Jeddah, Taif, and Bahah, where  bon dioxide emissions through regular  22-million barrels per year.   Toray    Methyl Amyl Ketone   Methallyl Chloride   1 Methoxy Propanol    Trichloroisocyanuric Acid 5-8 Mesh,100-120 Mesh
 demand for this vital resource has risen  evaporation into an eco-friendly setup  develops and manufactures everything    1-Methoxy Propyl Acetate   Methyl Cellosolve   Methyl Cyclohexane   Triethyl Ortho Acetate   Triethylsilane
         Methyl Glycol   1-Methyl Imidazole   2-Methyl Imidazole
                                                           Triisobutyl Phosphate   Tri-N-Butyl Phosphate
 owing  to population and inbound  employing advanced  RO  membrane  from RO and ultrafi ltration membranes    Methyl Iso Butyl Carbinol [MIBC]   Methyl Isoamyl Ketone    Triphosgene   Triss Buffer   2,6-Xylidine
 tourism growth.  technology.  A solar power system  to membrane bioreactor modules.
 supplies the equivalent of 65 mega-  It  off ers  solutions  for  an  array  of   Bharat Jyoti Impex
 The Shuaibah 3 IWP project has  watts peak to the plant.  This project  needs, with its applications including   “Jasu”, Ground Floor, 30, Dadabhai Road, (Near CNM School), Vile Parle (West), Mumbai 400 056.
 converted a conventional seawater  is expected to cut annual emissions by  drinking water, industrial, agricultural,   Phone: +91 91528 33394 & +91 91524 33394  Whats App:. +91 99300 51288
 desalination facility consuming a lot of  around 45-mt of carbon dioxide and  and wastewater treatment, and waste-  Email: info@bharatjyotiimpex.com  Website: www.bharatjyotiimpex.com
 energy and producing signifi cant car-  reduce crude oil consumption by about  water reuse.  MORE THAN 2000 CHEMICALS IN SMALL PACKING

 162  Chemical Weekly  July 29, 2025  Chemical Weekly  July 29, 2025                                   163


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