Torrefaction of Biomass to Enhance Fuel Properties. By Bimal Acharya and Animesh Dutta School of Engineering, University of Guelph

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Transcription:

Torrefaction of Biomass to Enhance Fuel Properties By Bimal Acharya and Animesh Dutta School of Engineering, University of Guelph April 20, 2013

Contents of Presentation Introduction Objectives Methodology Experimental Setup Result and Analysis Applications Conclusions Recommendations References 2

Introduction 3

Introduction 2 4

Torrefaction Process Concept 3 5

Introduction 1 0.3M 0.1E Torrefaction gas Biomass feedstock Torrefied biomass Torrefaction 1M 1E 200 300 C 0.7M 0.9E 6

Objectives Study of Different characterizations of Lignocellulosic and Non-lignocellulosic biomass from Ontario before and after torrefaction. Optimization of torrefied conditions based on hydrophobicity Investigation of pelletization potential before and after torrefaction Ash analysis of biomass at different combustion temperature. 7

Methodology 8

Experimental Set up (Drying + Proximate) Apparatus: Programmable Muffle Furnace Thermocouple with stainless steel probe Crucible Desiccator Weighing Balance 9

Experimental Set up (Torrefaction) 10

Experimental Set up (Torrefaction) Apparatus: Locally designed and fabricated Reactor Connecting cables and fittings N2 gas Gas Analyzer Preheater Gas Flow Meter Thermocouples Temperature Controllers (2) Desiccator Electric weigh balance 11

Experimental Set up (Pelletization) 12

Experimental Result (Proximate analysis) 13

Experimental Result (Proximate analysis) 14

Experimental Result (Ultimate Analysis) 15

Experimental Result (HHV) 16

Experimental Result (Hydrophobicity-All) 17

Experimental Result (Moisture Uptake-all) 18

Experimental Result (Pelletization-Making) 19

Experimental Result (Pelletization-Breaking) 20

Experimental Result (Ash Fusion Temp) 21

Experimental Result (Elemental Ash Analysis) 22

Experimental Result (Ash Fusion Temperature) 23

Applications 24

Conclusions Torrefied biomass can be used for co-firing with coal in thermal power plant, heating system and combustion system. 25

Conclusion Characterization Lignocellulosic Non-Lignocellulosic 1. Mass Yield Fast Slow 2. Energy Yield High Low 3. Hydrophobicity Yes Yes 4. Moisture Uptake Low High 5. Pelletization Possible Possible only with binder 6. HHV High 20-24MJ/Kg Low 12MJ/Kg 7. Ash Composition High Silica components High Calcium component 8. Ash Fusion Low 1100-1200ᴼC High 1400ᴼC 26

Recommendations Try to use torrefied biomass pellets for co-firing with coal in thermal power plant, heating system and combustion system. Run small businesses for pellet making: Raw and Torrefied both Need to explore further on economic viability and sustainability of the technology 27

References 1. Acharya B., Sule I. & Dutta A. (2012). A review on advances of torrefaction technologies for biomass processing, Biomass Conversion and Biorefinery, December, Volume 2, Issue 4, pp 349-369. 2. Uslu A., Faaij A.P.C., and Bergman P.C.A., (2008) Pre-treatment technologies, and their effect on international bioenergy supply chain logistics. Techno-economic evaluation of torrefaction, fast pyrolysis and pelletization, Elsevier Energy Vol. 33, pp 1206 1223 3. Kiel J.H.A., F. Verhoeff, H. Gerhauser and B. Meuleman (2008) BO2 Technology for Biomass Upgrading into solid fuel-pilot Scale Testing and Market Implementation; Energy research Centre of the Netherlands (ECN), P.O. Box 1755 ZG Petten, the Netherlands. 4. Kleinschmidt C.P.,(2011) Overview of international developments in torrefaction, Bio-energy Trade, Torrefaction workshop, January, [online material]url: http://www.bioenergytrade.org/downloads/grazkleinschmidtpaper2011.pdf 5. Tumuluru J.S., Sokhansanj S, Hess J.R., Wright C.T., and Boardman R.D.; (2011) A review on biomass torrefaction process and product properties for energy applications, Industrial Biotechnology, October. 6. Felfli F.F., Luengo C.A., Soler P.B., and Rocha J.D.,(2004) Mathematical Modelling of Woods and Briquettes Torrefaction, Proceedings of the 5th Encontro de Energia no Meio Rural, Campinas, Spain, October 19 2 http://www.feagri.unicamp.br/energia/agre2004/fscommand/pdf/agrener/trabalho%205.pdf 7. Bridgeman T.G., Jones, J.M., Shield, I., and Williams P.T., (2008), Torrefaction of reed canary grass, wheat straw and willow to enhance solid fuel qualities and combustion properties, Journal of Fuels, Vol. 87, pp. 844 856. 8. Bergman PCA, Boersma AR, Zwart RWH, and Kiel JHA (2005). Torrefaction for biomass co-firing in existing coal-fired power stations. Report ECN-C--05-013, ECN. 28

Thank you Any Questions? 29

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