References 1 Chen, Liquid fuel from carbohydrates, ChemTech , Aug 1986. 2 Nair, Biofuels: Unlocking the Potential, 9th ASCOPE Conference & Exhibition, 18-20 Nov 2009, Bangkok, Thailand. 3 Canakci, Biodiesel production from oils and fats with high free fatty acids, ASAE Vol. 44(6) 1429-1436, 2001. 4 Srivastava, Triglycerides-based Diesel Fuels, Renewable and Sustainable Energy Reviews 4, 2000. 5 Rasmussen, Renewable diesel fuel, 2020 AFPM Summit. 6 Watkins, New opportunities for co-pro- cessing renewable feeds in refinery pro - cesses, Catalagram 103, 2008. 7 Shanks, Removing MCPDs and GEs from edible oil, OFI , Jun 2018. 8 Marinangeli, Opportunities For Biorenewables In Oil Refineries Final Technical Report, DE-FG36-05GO15085, 12/01/2004 to 04/15/2005. 9 Hoekman, Investigation of Biodistillates as Potential Blendstocks for Transportation Fuels, Desert Research Institute Reno, NV 89512, 2012. 10 Zhang, Hydroconversion of waste cooking oil into green biofuel over hierarchical USY- supported NIMO catalyst: a comparative study of desilication and dealumination, Catalysts 2017, 7, 281; doi:10.3390/catal7100281. 11 Taromi, Green Diesel Production via Hydrodeoxygenation of Triglycerides , Univ of Laval PhD, 2017. 12 Sanford, Feedstock and Biodiesel Characteristic Report , Renewable Energy Group, Nov 2009. 13 Nair, UOP/Eni Ecofining™ ProcessRefining Renewable Feedstocks UOP, International Symposium on Biofuels, 25-26 Sep 2007, New Delhi, India. 14 Lappas, Production of biofuels via co-pro- cessing in conventional refining processes, Catalysis Today, 2009; 145 (1-2): 55-62. 15 Melis, Albemarle catalytic solutions for the co-processing of vegetable oil in conventional hydrotreaters, Albemarle Catalyst Courier 73. 16 Watkins, New opportunities for co- processing renewable feeds in refinery pro - cesses, Catalgram 103, 2008. 17 Jensen, Co-processing potential of HTL Bio-crude at petroleum refineries part 2: a parametric hydrotreating study, Fuel , Sept 2015. 18 Grange, Impact of biofeed retrofits, co- processing on refinery amine units, SWSs and SRUs - Part 2, Hydro Proc, Feb 2022. 19 Fogassy, The fate of bio-carbon in FCC
co-processing products, Royal Society of Chemistry, 2012, 14, 1367-1371. 20 Vergara, Renewable feeds co-processing using existing heavy ends refinery platform, BBTC , Sep 21. 21 Lappas, Production of biofuels via co-pro- cessing in conventional refining processes, Catalysis Today, 2009, 145 (1-2) 55-62. 22 Melis, Albemarle catalytic solutions for the co-processing of vegetable oil in conventional hydrotreaters, Albemarle Catalyst Courier 73. 23 Watkins, New opportunities for co- processing renewable feeds in refinery pro - cesses, Catalgram 103, 2008. 24 Jensen, Co-processing potential of HTL Bio-crude at petroleum refineries part 2: a parametric hydrotreating study, Fuel, Sept 2015. 25 Grange, Impact of biofeed retrofits, co- processing on refinery amine units, SWSs and SRUs - Part 2, Hydro Proc, Feb 2022. 26 Fogassy, The fate of bio-carbon in FCC co-processing products Royal Society of Chemistry, 2012, 14, 1367-1371. 27 Vergara, Renewable feeds co-processing using existing heavy ends refinery platform, BBTC, Sept 21. Scott M Sayles is a chemical engineer with over 46 years of experience as a refinery manager, engineer, and consultant in the petroleum refining and petrochemical indus - tries. His experience includes strategic studies for multi-billion-dollar projects, focusing on ebullated/slurry and fixed bed hydrocrackers, aromatics, reforming, hydroprocessing, bio- refining, FCC, and gasification. Matt Caserta has 20 years of engineering experience in oil refining, chemical processing, and consulting. He manages Becht’s corrosion control document (CCD)/integrity operating window (IOW) implementation team. He has been involved in the development of CCDs and IOWs for over 50 different process units. Stephen DeLude has over 30 years of experi- ence in oil sands development and petroleum refining with Shell Canada. His experience includes development of a strategic Asset Development Plan for heavy oil assets as well as the business case for bitumen processing and upgrading. He also managed novel oil sands extraction technology commercialisa- tion opportunities, including negotiating a col- laboration agreement. Alfred ‘Al’ Keller has over 35 years of expe- rience in process engineering, technology licensing, and R&D in amine treating, sulphur recovery, and alkylation technology.
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