Tytuł artykułu
Autorzy
Identyfikatory
Warianty tytułu
Laboratory stations for investigation of pyrolysis and biomass gasification
Języki publikacji
Abstrakty
Opisano wybrane najważniejsze laboratoryjne metody, techniki i stosowane elementy aparaturowe wykorzystywane do procesów zgazowania i pirolizy, które to procesy coraz częściej są wykorzystywane do przetwarzania biomasy jako surowca. Technologia zgazowania biomasy jest interesującą alternatywą dla konwencjonalnego traktowania stałych odpadów rolniczych i przemysłowych, takich jak: opony, papier, odpady leśne czy odpady z przemysłu spożywczego.
Described are the most important laboratory methods, technologies and equipment applied for processes of gasification and pyrolysis which are more and more frequently used for processing of biomass as a raw material. Biomass gasification technology is an interesting option to conventional treatment of agricultural and industrial solid wastes like tyres and paper or forest and food industry wastes.
Czasopismo
Rocznik
Tom
Strony
775--779
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
- Instytut Energetyki, Zakład Procesów Cieplnych
Bibliografia
- [1] Brigdwater A.V., Catalysis in thermal biomass conversion, Applied Catalysis A: General, 116 (1994), 5-47
- [2] Knoef H.A.M., Handbook of Biomass Gasification, Biomass Technology Group, Netherlands, 2005
- [3] Warowny W., Celińska A., Zgazowanie biomasy, Czysta Energia, 5 (2008), 36-41
- [4] Staniewski E., Gasification-The Benefits of Thermochemical Conversion over Combastion. Hazardous Materials Management, October/November, 1995
- [5] Hauserman W.B. i inni, Biomass gasifiers for fuel cells systems. La Chamica & L'Industha, 2 (1997), 199-206
- [6] Di Blasi C., Dynamic behaviour of stratified downdraft gasifier. Chemical Engineering Science, 55 (2000), 2931-2944
- [7] Quaak P. i inni, Energy from biomass. 1999, Word Banktechnical paper no. 422. Energy Series
- [8] Juniper, Pyrolysis & Gasification of Waste. Worldwide Technology 6 Business Review. Juniper Consultancy Services Ltd., 2000. www.juniper.co.uk
- [9] Niessen W.R. i inni, Evaluation of Gasification and Thermal Processes for the Treatment of Municial Solid Waste (Report NREL/TP-430-21612), 1996
- [10] Bingyan X. i inni, Circulating Fluidized Bed Gasifier for Biomass. Integrated Energy Systems in China. The Cold Northeastern Region Experience FAO,1994
- [11] Craig, K.R i inni, Biomass power systems-where are we going, and how to get there? The role of gasification. EPRI Conference on New Power Generation Technology, San Francisco, CA, October 25-27, 1995
- [12] Fagbemi L. i inni, Pyrolysis products from different biomasses: application to the thermal cracking of tar, Applied Energy 69 (2001), 293-306
- [13] Hanaoka T. i inni, Hydrogen production from woody biomass by steam gasification using a CO2 sorbent. Biomass&Bioenergy 28 (2005), 63-68
- [14] Cetin E. i inni, Influence of pyrolysis conditions on the structure and gasification reactivity of biomass chars. Fuel 83 (2004) 2139-2150
- [15] Becidan M. i inni, Products distribution and gas release in pyrolysis of thermally thick biomass residues samples, Journal of Analytical and Applied Pyrolysis 78 (2007), 207-213
- [16] Park D. i inni, Pyrolysis and Gasification Characteristics of Sawdust and Rice Husk. KAIST, www.kaist.edu
- [17] Moilanen A. i inni, Characterisation of gasification reactivity of peat char in pressurized conditions. Fuel 75 (1996), 1279-1285
- [18] Vriesman P. i inni, Biomass gasification in a laboratory-scale AFBG: influence of the location of the feeding point on the fuel-N conversion. Fuel 79 (2000), 1371-1378
- [19] Hanaoka T. i inni, Effect of woody biomass components on airsteam gasification. Biomass&Bioenergy 28 (2005), 69-76
- [20] Rakowski J.: Możliwości zgazowania biomasy dla potrzeb energetycznych. II Konferencja Naukowo-Techniczna "Energetyka gazowa 2002". Prace IMiUE i ITC Politechniki Śląskiej, 2002, s. 293
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS1-0033-0042