Publication detail

Cool Producing Systems Based on Burning and Gasification of Biomass

POSPÍŠIL, J. FIEDLER, J. SKÁLA, Z.

Original Title

Cool Producing Systems Based on Burning and Gasification of Biomass

English Title

Cool Producing Systems Based on Burning and Gasification of Biomass

Type

conference paper

Language

en

Original Abstract

This paper introduces utilizing of biomass for production of cool. Two different thermal systems are considered as sources of a driving thermal energy, namely burning and gasification of biomass. Burning of biomass produces a hot water or steam used as a driving heat source for an absorption cycle. The mixture of water and LiBr is considered as an appropriate working medium in absorption systems. Different parameters of the absorption system were tested and compared. Gasification in an atmospheric fluidized bed reactor connected with a trigeneration unit is considered as another thermal system utilizing primary energy of biomass. The system enables to use together an absorption cooling cycle and a vapor-compressor cooling cycle. Efficiency of both systems are calculated and compared. Parameters of the gasification process were derived from measurements carried out on the experimental gasifier at the Brno University of Technology.

English abstract

This paper introduces utilizing of biomass for production of cool. Two different thermal systems are considered as sources of a driving thermal energy, namely burning and gasification of biomass. Burning of biomass produces a hot water or steam used as a driving heat source for an absorption cycle. The mixture of water and LiBr is considered as an appropriate working medium in absorption systems. Different parameters of the absorption system were tested and compared. Gasification in an atmospheric fluidized bed reactor connected with a trigeneration unit is considered as another thermal system utilizing primary energy of biomass. The system enables to use together an absorption cooling cycle and a vapor-compressor cooling cycle. Efficiency of both systems are calculated and compared. Parameters of the gasification process were derived from measurements carried out on the experimental gasifier at the Brno University of Technology.

Keywords

cogeneration, trigeneration, biomass

RIV year

2006

Released

21.08.2006

Publisher

WSEAS

Location

Greece

ISBN

960-8457-52-1

Book

Proceedings of the 4th IASME/WSEAS Int. Conf. on Heat Transfer, Thermal engineering and Environment

Pages from

109

Pages to

114

Pages count

5

Documents

BibTex


@inproceedings{BUT20001,
  author="Jiří {Pospíšil} and Jan {Fiedler} and Zdeněk {Skála}",
  title="Cool Producing Systems Based on Burning and Gasification of Biomass",
  annote="This paper introduces utilizing of biomass for production of cool. Two different thermal systems are considered as sources of a driving thermal energy, namely burning and gasification of biomass. Burning of biomass produces a hot water or steam used as a driving heat source for an absorption cycle. The mixture of water and LiBr is considered as an appropriate working medium in absorption systems. Different parameters of the absorption system were tested and compared. 
     Gasification in an atmospheric fluidized bed reactor connected with a trigeneration unit is considered as another thermal system utilizing primary energy of biomass. The system enables to use together an absorption cooling cycle and a vapor-compressor cooling cycle. Efficiency of both systems are calculated and compared. Parameters of the gasification process were derived from measurements carried out on the experimental gasifier at the Brno University of Technology.
",
  address="WSEAS",
  booktitle="Proceedings of the 4th IASME/WSEAS Int. Conf. on Heat Transfer, Thermal engineering and Environment",
  chapter="20001",
  institution="WSEAS",
  year="2006",
  month="august",
  pages="109--114",
  publisher="WSEAS",
  type="conference paper"
}