Advanced search
Publication Cover
International Journal of Green Energy Volume 13, 2016 - Issue 6
Submit an article Journal homepage
327
Views
23
CrossRef citations to date
0
Altmetric
Original Articles

Characterization of coffee residues pellets and their performance in a residential combustor

Mejdi JeguirimInstitut de Science des Matériaux de Mulhouse, UMR 7361 CNRS, Mulhouse, FranceCorrespondence[email protected]
,
Lionel LimousyInstitut de Science des Matériaux de Mulhouse, UMR 7361 CNRS, Mulhouse, France
&
Eric FossardRID Solution, Theix, France
Pages 608-615 | Published online: 06 Jul 2016

References

  • Boonamnuayvitaya, V., C. Chaiya, and W. Tanthapanichakoon. 2004. The preparation and characterization of activated carbon from coffee residue. Journal of Chemical Engineering 37:1504–1512.
  • Bressani, R. 1979. Potential uses of coffee-berry by-products, in: J. E. Braham, R. Bressani (Eds.), Coffee Pulp: Composition, Technology, and Utilization, Internal Development Research Centre, Ottawa, Canada, 17–24.
  • Chouchene, A., M. Jeguirim, G. Trouvé, A. Favre-Reguillon, and G. Le Buzit. 2010a. Combined process for the treatment of olive oil mill wastewater: Absorption on sawdust and combustion of the impregnated sawdust. Bioresource Technology 101: 6973–6982.
  • Chouchene, A., M. Jeguirim, B. Khiari, G. Trouvé, and F. Zagrouba 2010b. Study on the emission mechanism during devolatilization/char oxidation and direct oxidation of olive solid waste in a fixed bed reactor. Journal of Analytical and Applied Pyrolysis 87:168–174.
  • Dorge, S., M. Jeguirim, and G. Trouvé. 2011. Thermal degradation of Miscanthus pellets: kinetics and aerosols characterization. Waste and Biomass Valorization 2:149–155.
  • Dias, J., M. Costa, and J. L. T. Azevedo. 2004. Test of a small domestic boiler using different pellets. Biomass and Bioenerg 27:531–539.
  • ElMay, Y., S. Dorge, M. Jeguirim, G. Trouvé, and R. Said. 2012. Measurement of Gaseous and Particulate Pollutants during Combustion of Date Palm Wastes for Energy Recovery. Aerosol and Air Quality Research 12:814–825.
  • Elmay, Y., G. Trouvé, M. Jeguirim, and R. Said. 2013. Energy recovery of date palm residues in a domestic pellet boiler. Fuel Processing Technology 112:12–18.
  • Eskilsson, D., M. Ronnback, J. Samuelsson, and C. Tullin. 2002. Optimisation of efficiency and emission in pellet burners. Proceedings of the First World Conference on Pellets, Stockholm, Sweden, 2-4 September. 143–146.
  • Fernandes, U., and M. Costa. 2012. Particle emissions from a domestic pellets-fired boiler. Fuel Processing Technology 103:51–56.
  • Gonzalez, J. F., C. Gonzalez-Garcia, A. Ramiro, J. Gonzalez, E. Sabio, J. Ganan, and M. A. Rodriguez. 2004. Combustion optimisation of biomass residue pellets for domestic heating with a mural boiler. Biomass and Bioenerg 27:145–154.
  • González, J. F., C. M. González-García, A. Ramiro, J. Gañán, A. Ayuso, and J. Turegano. 2006. Use of energy crops for domestic heating with a mural boiler. Fuel Processing Technology 87:717–726.
  • Gopalakrishna, K. N., and C. P. Natarajan. 1974. Utilisation of coffee by products. Indian Coffee 38:3–5.
  • Jeguirim, M., S. Dorge, A. Loth, and G. Trouvé. 2010. Devolatilization kinetics of miscanthus straw from thermogravimetric analysis. International Journal of Green Energy 7:164–173.
  • Jeguirim, M., A. Chouchene, A. Favre-Réguillon, G. Trouvé, and G. Le Buzit. 2012. A new valorisation strategy of olive mill wastewater: Impregnation on sawdust and combustion. Resources Recycling and Conservation 59:4–8.
  • Jensen, A., and K. Dam-Johansen. 1998. TG-FTIR study of the influence of potassium chloride on wheat straw pyrolysis. Energy & Fuels 12:929–938.
  • Johansson, L. S., C. Tullin, B. Leckner, and P. Sjovall. 2013. Particle emissions from biomass combustion in small combustors. Biomass and Bioenerg 25:435–446.
  • Jones, J. M., L. I. Darvell, T. G. Bridgeman, M. Pourkashanian, and A. Williams. 2007. An investigation of the thermal and catalytic behaviour of potassium in biomass combustion. Proceedings of the Combustion Institute 31: 1955–1963.
  • Kondamudi, N., S. K. Mohapatra, and M. Misra. 2008. Spent coffee grounds as a versatile source of green energy. Journal of Agricultural and Food Chemistry 56:11757–11760.
  • Kumar, A., L. Wang, Y. A. Dzenis, D. D. Jones, and M. A. Hanna. 2008. Thermogravimetric characterization of corn stover as gasification and pyrolysis feedstock. Biomass and Bioenergy 32:460–467.
  • Lehtikangas, P. (2001) Quality properties of pelletised sawdust, logging residues and bark. Biomass and Bioenergy 20: 351–360.
  • Limousy, L., M. Jeguirim, P. Dutournie, N. Kraiem, M. Lajili, and R. Said. 2013. Gaseous products and particulate matter emissions of biomass residential boiler fired with spent coffee grounds pellets. Fuel 107:323–329.
  • Magdziarz, A., and M. Wilk. 2013. Thermogravimetric study of biomass, sewage sludge and coal combustion. Energy Conversation and Management 75:425–430.
  • Miranda, T., J. I. Arranz, I. Montero, S. Román, C. V. Rojas, and S. Nogales. 2012. Characterization and combustion of olive pomace and forest residue pellets. Fuel Processing Technology 103: 91–96.
  • Munir, S., S. S. Daood, W. Nimmo, A. M. Cunliffe, and B. M. Gibbs. 2009. Thermal analysis and devolatilization kinetics of cotton stalk, sugar cane bagasse and shea meal under nitrogen and air atmospheres. Bioresource Technology 100:1413–1418.
  • Mussatto, S. I., E. M. S. Machado, S. Martins, and A. Teixeira. 2011. Production, Composition, and Application of Coffee and Its Industrial Residues. Fuel Processing Technology 4:661–672.
  • Nabais, J. V., P. Carrott, M. M. L. Ribeiro Carrott, V. Luz, and A. L. Ortiz. 2008. Influence of preparation conditions in the textural and chemical properties of activated carbons from a novel biomass precursor: the coffee endocarp. Bioresource Technology 99:7224–7234.
  • Nassar, M. M., E. A. Ashour, and S. S. Wahid. 1996. Thermal characteristics of bagasse. Journal of Applied Polymer Science 61: 885–890.
  • Saenger, M., E. U. Hartge, J. Werther, T. Ogada, and Z. Siagi. 2001. Combustion of coffee husks. Renewable Energy 23:103–121.
  • Silva, M. A., S. A. Nebra, M. J. Machado Silva, and C. G. Sanchez. 1998. The use of biomass residues in the Brazilian soluble coffee industry. Biomass and Bioenergy 14:457–467
  • Tsai, W. T., S. C. Liu, and C. H. Hsieh. 2012. Preparation and fuel properties of biochars from the pyrolysis of exhausted coffee residue. Journal of Analytical and Applied Pyrolysis 93:63–67.
  • Verma, V. K., S. Bram, G. Gauthier, J. De Ruyck. 2011. Evaluation of the performance of a multi-fuel domestic boiler with respect to the existing European standard and quality labels: part-1. Biomass and Bioenerg 35:80–89.
  • Verma, V. K., S. Bram, F. Delattin, P. Laha, I. Vandendael, A. Hubin, and J. De Ruyck. 2012. Agro-pellets for domestic heating boilers: Standard laboratory and real life performance. Applied Energy 90:17–23.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Supercharge Your Next Research Paper: Research and write your next paper with Jenni AI.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.