Transcript GreenSyngas
GreenSyngas Workshop ”GREENSYNGAS” Güssing February 23, 2011 General Presentation of GREENSYNGAS Advanced Cleaning Devices for Production of Green Syngas Mehri Sanati Lund University Faculty of Engineering [email protected] http://www.eat.lth.se/greensyngas/ Role of each contractor in the project 1-ULUND: Coordinator & Management; research of downstream processing, particle phase characterisation for performance measurement of cleaning, catalytic system, demonstration 2-TUM: Development of sophisticated techniques (Laser diagnostics, Optical) for characterisation of tar & alkali in gasifier 3-TUD: On-line tar measurements and gasification with different biomass supply by Lantmännen, the gasifier was also used for field test of reforming catalyst (gas supply to the reactor system), and calibrating of the developed methodology for high temperature fine particle in produced gas (gas supply) 4-PA: Filter system that responds to the requirement of clean gas for downstream processing in GREENSYNGAS, multi-cyclone and sintered metal Continue 5-FZJ: Chemical hot gas cleaning and thermodynamic modelling, small gasification system, Biomass characterisation supply by Lantmännen 6-UNIBO: Downstream catalytic system; steam reforming, WGS reaction, catalytic tar cracking 7-JM: Scientific aspect of the catalytic system, catalysts supply, process flowsheeting 8-NTNU: Downstream catalytic system; steam reforming, WGS reaction 9-BKG: Gasification, demo of cleaning device, experimental concerning catalyst exposure, supply of product gas from the gasifier to the partners laboratory 10-LANTM: biomass quality, accessibility and supply to different laboratories 11. Science in Society: Bil Sweden, Karin Kvist 3 Total budget and duration Total EC support, in €: 2,718,461.00 Total Contract cost, in €: 4,089,167.00 38 months project Contract start date:2008-01-01 Contract end date: 2011-02-28 4 WPs name and WPs leader and involved partners WP N° Title of WP WP Leader Short name WP Participant Short name Type of WP°° Start Date End Date 1 Coordination and Management Development of characterisation techniques for emissions measurement from Biomass Gasification Gas purification of particulates Tar, alkali, HCl, NH3 and sulphur removal including water treatment at highlow temperature Non –catalytic and Catalytic steam reforming, catalytic poisoning and process flow sheeting tasks Water Gas Shift reaction and scale-up Large scale-Plant testing ULUND All partners Management 1 38 ULUND, TUM. LANTM Research 1 38 PA ULUND, PA 12 38 TUD ULUND, TUD, FZJ, UNIBO, JM Research and demo Research and demo 2 38 ULUND ULUND, UNIBO, JM, NTNU Research and demo 4 38 NTNU Research and demo Demo 10 38 BKG ULUND, UNIBO, JM, NTNU ULUND, TUD, PA, FZJ, UNIBO, JM, NTNU, BKG, LANTM 32 38 Dissemination and Exploitation UNIBO All partners Dissemination 1 38 2 3 4 5 6 7 8 TUM 5 Optimisation of units in Biofuel production route? Harvesting Transport Palletizing Forest Processing Heat losses ThermoChemical Conversion Heat losses Heat losses reforming and shift Gas cleaning Upgrading step to added value products Fuel Schematic energy conversion in a biomass to added value products (Thermochemical Conversion) Product gas from gasification process consists of CO, CO2, H2, H2O, unburned hydrocarbons, tar, sot, char, inorganic, and generally org The aim will be increasing utilization of LHV of feedstock to added value products 6 collaboration between applied oriented technical discipline and basic research concentrated on new field of scientific knowledge Technological research targets Gasification Thermo-chemical conversion & synthesis of product gas to heat & power, chemical and vehicle fuels Combustion High temperature Aerosol Physics Fluid Dynamics Transport Thermodynamics Phenomena Catalytic and nionImproved particle catalytic reaction removal system system Multiphase reaction system Basic Research and Applied Investigation towards an innovative improved particle cleanup system and preventing catalytic deactivation 8 Baserad på gas produktsammansättning olika ”down stream” process kan vara aktuella. G a s C o m p o sitio n in B K G b io m a ss g a sifica tio n , b a la n ce; G ü ssin g g a sifica tion p la n t fu ll lo a d A fter gasifier (raw gas) W ater content v-% ~ 40 B efore gas engine (clean gas) ~ 10 CH4 v-% (dry) 9… 11 9… 11 C 2H 4 v-% (dry) 2… 3 2… 3 C 3-F ract. v-% (dry) 0.5… 1 0.5… 1 CO v-% (dry) 22… 25 22… 25 CO2 v-% (dry) 20… 25 20… 25 H2 v-% (dry) 38… 40 38… 40 N2 v-% (dry) 1.2… 2.0 1.2… 2.0 H 2S v-ppm (dry) ~ 150 ~ 150 O rganic S v-ppm (dry) ~ 30 ~ 30 HCl v-ppm (dry) n.d. ~5 NH3 v-ppm (dry) 1000… 2000 500… 1500 B enzene g/m ³N (dry) n.d. 5...8 N apthalene g/m ³N (dry) n.d. 1..2 H eavy tar (P A H larger than N apthalene) P articulates g/m ³N (dry) 0.5… 1 0.02… 0.05 g/m ³N (dry) ~ 50 < 0.02 n.d. not m easured Partners contribution in relation to this Figure 10 High temperature Cleaning device, in market High temperature Gas phase characterization High temperature particle characterization Ammonia removal Tar cracking Capture of sulfur and alkali Flow sheeting 11 Reforming Step He a t Air,o xyg e n A Fu e l Ste a m C O,C O 2 H2 ,H2 O A) Steam reforming CH CH 4 4 B Fu e l Ste a m He a t C O,C O 2 H2 ,H2O (N2 ) B)Auto-thermal reforming 2 H 2O CO 2 4 H 2 H 2O CO 3 H 2 steam: carbon ratio about 2-4 12 Upgrading Steps-production routes of Syngas; Steam reforming Regenerative System for endothermic process, no heat waste (Energy Saving) 14 High temperature sampling probe for particulate (submicrone) High temperature Particle emission from wood Gasification To develop and evaluate methods for characterization of particles - Physically; Size, Mass, Number concentration -Chemical composition - Deposition on heat surface (corrosion issue) ACKNOWLEDGMENTS The work was supported by European Commission (EC) 7th Framework Programme (GREENSYNGAS Project Contract number 213628) and the Swedish Energy Agency 17 Thanks for your attention [email protected] 18