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The Benefits Global Industrial Global Industrial Bio-Refining Solutions G.I.Dynamics:Bio-RefiningSolutions Integrated Bio-Refineries are serving a niche and rapidly growing market for bio-chemicals and bio-plastics. At G.I. Dynamics we want to expand the added value of ethanol/biomass usage and with our technologies to convert it further to other added value products for the industry like : > Bio-Ethylene > Bio-Mono Ethylene-Glycol > Bio Acetic Acid > Bio-Ethylene-Oxide > Bio Poly ethylene The map of petrochemical products is changing rapidly and an increase number of company are moving away from the petroleum products. They are looking into harnessing the potential created by the biomass by conversion into ethanol/sugar and further downstream bio-chemicals. Multiple bio-products The integrated technologies generate added value for multiple industries like cosmetics, pharmaceutical, textiles, etc. which are using bio-ethylene, bio-EO and bio-MEG. Flexible model Depending on the variation of the market bio-EO/MEG plants can accommodate a change in the capacity and to align with the changes in the market. Saleable CO2 We approach the business from a zero discharge philosophy. The CO2 is recovered as food grade and can be used further e.g. beverages. Minimize carbon footprint Extensive research showed that ethanol based bio-ethylene production reduce the carbon footprint supporting the environmental and sustainability endeavors of many companies. Integration Best performances of the techno- logy are a consequence of high level of integration from energy perspective/utility consumption. Best Technology The technologies combine best practice and use state of the art catalyst reaching the highest conversion and the highest selectivity of the main products. We deliver Technology for Bio-Chemical Production Facilities Introduction G.I. Dynamics technology converts the ethanol in added value bio-chemical products, has been applied successfully in many projects worldwide. The technology takes advantage of the full integration with the downstream and upstream processes and incorporates best practices leading to the best technology with the highest conversions. Furthermore the integrated bio-Refining makes use of maximum heat/utility recovery and still has flexibility of operation. The technology converts the ethanol into bio-ethylene with nearly 100% conversion with minimum by-products. The conversion of bio-ethylene to bio-EO takes advantage of the best available catalyst, reporting best performances. Bio-MEG converted from bio-EO serves the niche market of bio-PET, sustaining the increase demand for bio-plastics. The Technology Market Price conform Using best performances and full integration, bio-chemi- cal result in the process chain to have a market conform price. Depending on the region the bio-chemicals prices are highly competitive with the petroleum ones.
Bio-Sources /-Mass to produce Bio-Ethanol 1st Generation > Corn > Wheat > Sugar Beet > Sugar-Cane > Sorghum > Potatoes 2nd Generation > Corn stover > Wheat straw > Bagasse > Wood chips > Switchgrass > Pulp and paper waste 3rd Generation > Algae G.I.Dynamics:Bio-RefiningSolutions 10+More than 10 successful project implemented with commercial live plants in operation. 25Majority of stand-alone Ethylene units globally licensed by us during past 25 years. 20Backed by over 20 years of continuous process development, catalyst R&D, and operations/ integration know-how. Key Figures The Concept Global Industrial Global Industrial Contact Adrian R. Toader +31 (0)71 56 229 51 ar.toader@gidynamics.nl 30-250Commercial delivery and project implementation from 30-250 KTA per year. 1st - 2nd Both 1st and 2nd generation ethanol production can be used for production of bio-chemicals and bio-plastics 16-18Short project duration of 16 to 18 months versus petroleum based projects which take up to 4-5 years. +99%Selectivity of ethanol and purity level of produced ethylene, EO or MEG is typically +99% 0Minimum to Zero (0) carbon dioxide discharge due to optimi- zed and integrated design. 40-120%High turn-down ratio from 40% to 120% of design rates.

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f67716_113d949daf8343339c2a548e9621036a

  • 1. The Benefits Global Industrial Global Industrial Bio-Refining Solutions G.I.Dynamics:Bio-RefiningSolutions Integrated Bio-Refineries are serving a niche and rapidly growing market for bio-chemicals and bio-plastics. At G.I. Dynamics we want to expand the added value of ethanol/biomass usage and with our technologies to convert it further to other added value products for the industry like : > Bio-Ethylene > Bio-Mono Ethylene-Glycol > Bio Acetic Acid > Bio-Ethylene-Oxide > Bio Poly ethylene The map of petrochemical products is changing rapidly and an increase number of company are moving away from the petroleum products. They are looking into harnessing the potential created by the biomass by conversion into ethanol/sugar and further downstream bio-chemicals. Multiple bio-products The integrated technologies generate added value for multiple industries like cosmetics, pharmaceutical, textiles, etc. which are using bio-ethylene, bio-EO and bio-MEG. Flexible model Depending on the variation of the market bio-EO/MEG plants can accommodate a change in the capacity and to align with the changes in the market. Saleable CO2 We approach the business from a zero discharge philosophy. The CO2 is recovered as food grade and can be used further e.g. beverages. Minimize carbon footprint Extensive research showed that ethanol based bio-ethylene production reduce the carbon footprint supporting the environmental and sustainability endeavors of many companies. Integration Best performances of the techno- logy are a consequence of high level of integration from energy perspective/utility consumption. Best Technology The technologies combine best practice and use state of the art catalyst reaching the highest conversion and the highest selectivity of the main products. We deliver Technology for Bio-Chemical Production Facilities Introduction G.I. Dynamics technology converts the ethanol in added value bio-chemical products, has been applied successfully in many projects worldwide. The technology takes advantage of the full integration with the downstream and upstream processes and incorporates best practices leading to the best technology with the highest conversions. Furthermore the integrated bio-Refining makes use of maximum heat/utility recovery and still has flexibility of operation. The technology converts the ethanol into bio-ethylene with nearly 100% conversion with minimum by-products. The conversion of bio-ethylene to bio-EO takes advantage of the best available catalyst, reporting best performances. Bio-MEG converted from bio-EO serves the niche market of bio-PET, sustaining the increase demand for bio-plastics. The Technology Market Price conform Using best performances and full integration, bio-chemi- cal result in the process chain to have a market conform price. Depending on the region the bio-chemicals prices are highly competitive with the petroleum ones.
  • 2. Bio-Sources /-Mass to produce Bio-Ethanol 1st Generation > Corn > Wheat > Sugar Beet > Sugar-Cane > Sorghum > Potatoes 2nd Generation > Corn stover > Wheat straw > Bagasse > Wood chips > Switchgrass > Pulp and paper waste 3rd Generation > Algae G.I.Dynamics:Bio-RefiningSolutions 10+More than 10 successful project implemented with commercial live plants in operation. 25Majority of stand-alone Ethylene units globally licensed by us during past 25 years. 20Backed by over 20 years of continuous process development, catalyst R&D, and operations/ integration know-how. Key Figures The Concept Global Industrial Global Industrial Contact Adrian R. Toader +31 (0)71 56 229 51 ar.toader@gidynamics.nl 30-250Commercial delivery and project implementation from 30-250 KTA per year. 1st - 2nd Both 1st and 2nd generation ethanol production can be used for production of bio-chemicals and bio-plastics 16-18Short project duration of 16 to 18 months versus petroleum based projects which take up to 4-5 years. +99%Selectivity of ethanol and purity level of produced ethylene, EO or MEG is typically +99% 0Minimum to Zero (0) carbon dioxide discharge due to optimi- zed and integrated design. 40-120%High turn-down ratio from 40% to 120% of design rates.