2G Biofuels: from biomass going commercial Simone Ferrero, Copenhagen 20/05/2014
SUMMARY The biorefinery concept Proesa Technology Biofuel and Biochemicals 2
BIOBASED CHEMICALS FROM BIOMASS: IS IT POSSIBLE? 3
The Biorefinery Concept The biorefinery concept is analogous to today's petroleum refinery, which produce multiple fuels and chemicals from petroleum Feedstock Conversion Platform End markets Conversion Platform Feedstock Fuels and energy Chemicals and polymers Advanced carbohydrates (cellulose and hemicellulose) Petrochemical way one raw material Cellulosic Sugars and Lignin Biorefinery way many raw materials 4
Sustainability of the Biorefinery: a question of energy The barrel of oil is replaced by the new biomass barrel CELLULOSE CELLULOSE (35 (35-50 50 %) %) EMICELLULOSE EMICELLULOSE (15 (15 35 35 %) %) LIGNIN LIGNIN (15 (15 20 20 %) %) Biofuels Biochemicals Biochemicals (Aromatics) ASHES ASHES (5 (5 15 15 %) %) Silica Producing multiple products and integrating waste treatment, Biorefineries can maximize the values derived from biomass feedstock and turn biomass processing into real opportunities 5
SUMMARY The biorefinery concept Proesa Technology Biofuel and Biochemicals 6
Our R&D Center Rivalta, Italy Rivalta Scrivia, Piedmont Italy Biochemtex research facility is equipped with 4600 m 2 dedicated to fuels chemistry and technology from renewable resources and counts engineers, biotechnologists and chemists dedicated to R&D activities. 7
Rivalta R&D our R&D Center Units Activities: R&D on biofuels and renewable resources Operational pilot plants for bio-ethanol and target chemicals from lignocellulosic feedstocks Products applications support 130 people dedicated to R&D activities Fully equipped analytical and fermentation laboratories Pilot Plants 8
Technology: A Snapshot More than USD 200M investment into R&D since 2006 Extensive agronomic studies and supply chain logistics investigation A continuous 1t/d biomass pilot facility operational since 2009 A contiuous 60 kg/d LIGNIN Pilot plant for MOGHI Technology A continuous 60 kg/d GREG pilot plant Intellectual Property 44 patent family applications filed, 25 are public, several patent GRANTED. Collaboration with chemical, catalyst and/or Biotech companies Commitment of Mossi Ghisolfi Group / Biochemtex and its partners to continuous development and improvement 9
PROESA Technology Step by step Q2-2013 2006-2008 Scouting of Technologies Generation of key inventions Proof of UNIT OPERATION in the labs 2009-2010 Pilot plant construction & start up (June 2009) Pilot Plant operation and data gathering Test of Plant flexibility using multiple biomasses 2011-2012 Crescentino Plant Collaboration Agreements with leading synthetic biology companies License Agreements Formation of Beta Renewables Crescentino Plant Start-up 10
Cost-effective sugars from biomass Agronomy best energy crops, based on field experiments Biomass pre-treatment and viscosity reduction: continuous process Hydrolysis and fermentation: unique hybrid SSCF process yielding high ethanol concentrations Aggregation: fully integrated process design Biomass Enzymes CO 2 Water Feed Handling Pre-Treatment and Viscosity Reduction Hydrolysis + Fermentation Recovery Ethanol Steam Water Boiler + Generator Steam Power 11
Proesa : We Are Ready
SUMMARY The biorefinery concept Proesa Technology Biofuel and Biochemicals 14
A Platform for Sustainability PROESA Technology for cellulosic sugars production BIOFUELS Ethanol JetFuel Butanol PROESA Technology BIOCHEMICALS Fatty Alcohols 1,4 BDO Farnasene Chemical & Biological Conversion Platform BIOPOLYMERS LIGNIN CHEMICALS Lactic acid Acrylic acid Succinic acid Adipic acid Phenols Benzene Xylene Terephtalic Acid *production of all the reported chemicals have been already proven at lab /pilot scale in collaboration with Beta Renewables partners 15
The Concept of Biorefinery MG is developing its own technologies for sugars conversion and lignin processing. A biorefinery will produce various products: initially ethanol, then diols, later aromatics. MO BIOMASS PROESA Technology YEAST C5,6 Sugars Fermentation /Separation Isobutanol Fatty Alcohols 1,4 BDO Fermentation Separation Ethanol Hydrogen Lignin MOGHI Technology BTX GREG Technology Polyols Hydrogen Catalyst 16
GREG Process concept Raw Biomass Pre-Treatment C 6 PROESA Ethanol C 5 GREG EG, PG GREG process products Ethylene Glycol (EG) to M&G PET production 1,2-Propylene Glycol (PG) to cosmetic, antifreezing/de-icing and resin industries 17
GREG Process from Proesa Raw oligomeric C 5 sugars Purification/hydrolysis Purified monomeric C 5 sugars Hydrogenation/Hydrogenolysis Glycols mixture Separation and product recovery EG PG 18
MOGHI Lignin: chemistry and structure Observing its three-dimensional structure, it is easy to identify three main molecules such as: p-coumaryl alcohol, coniferyl alcohol, sinapyl alcohol, they could be considered main building blocks from the lignin polymer. Phenolic structure Guaiacylic structure Siryngilic structure 1 methoxy group 2 methoxy groups 19
MOGHI Technology scheme Phase I Phenol Oil Phenols for Phenolic Resins Guaiacols for food industry Cresols Lignin Phase II Bioreformate BTX (B, X for polymer production) Jet Fuel Marinediesel Hydrogen Catalyst 20
Sugar Platform example of cooperations Codexis and Biochemtex together for production of C12-C14 fatty alcohols from cellulosic biomass. Biomass C5-6 sugars Proesa Fermentation Separation 2G-FOH TECHNOLOGY FOH Genomatica and Biochemtex together for production of 2G bio-bdo from Proesa sugars Gevo and Biochemtex together for production of 2G isobutanol from Proesa sugars Cobalt, Rhodia and Biochemtex together for production of 2G buthanol from Proesa sugars 21
MOGHI GREG BIOREFINERIES ARE POSSIBLE TODAY! 22
2G Biorefinery MO s BIOMASS PROESA Technology YEAST C5,6 Sugars Fermentation /Separation Isobutanol N-butanol Fatty Alcohols 1,4 BDO Fermentation Separation Ethanol Hydrogen Lignin MOGHI Technology BTX C5 Sugars GREG Technology Polyols Hydrogen Catalyst 33