The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold

The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold

The study presents a concept and calculations concerning the operation of the direct carbon fuel cell (DCFC) with molten hydroxide electrolyte (MH-DCFC) as the basic source of electricity integrated with heat and cool air generation systems. The technology of direct carbon fuel cells assumes the dir...

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Main Authors: Robert Zarzycki, Andrzej Kacprzak, Zbigniew Bis
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Series:Energies
Subjects:
direct carbon fuel cell
cogeneration
trigeneration
absorption chillers
heating
electricity generation
energy storage
Online Access:https://www.mdpi.com/1996-1073/11/11/3061
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spelling doaj-b1bc0413464642a095bb4e4a76d82f8e2020-11-24T21:47:17ZengMDPI AGEnergies1996-10732018-11-011111306110.3390/en11113061en11113061The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and ColdRobert Zarzycki0Andrzej Kacprzak1Zbigniew Bis2Department of Energy Engineering, Faculty of Infrastructure and Environment, Czestochowa University of Technology, Brzeźnicka 60a, 42-201 Częstochowa, PolandDepartment of Energy Engineering, Faculty of Infrastructure and Environment, Czestochowa University of Technology, Brzeźnicka 60a, 42-201 Częstochowa, PolandDepartment of Energy Engineering, Faculty of Infrastructure and Environment, Czestochowa University of Technology, Brzeźnicka 60a, 42-201 Częstochowa, PolandThe study presents a concept and calculations concerning the operation of the direct carbon fuel cell (DCFC) with molten hydroxide electrolyte (MH-DCFC) as the basic source of electricity integrated with heat and cool air generation systems. The technology of direct carbon fuel cells assumes the direct use of a carbon fuel (such as fossil coal, carbonized biomass, graphite, coke etc.) to generate electricity with high efficiency and low impact on the environment. These cells operate by utilizing carbon fuel in the range of temperatures of 673⁻973 K and allow for generation of electricity with an efficiency of about 56%. In order to improve the fuel conversion efficiency, the heat generated in the process of cell cooling can be used to prepare hot water, for heating during the heating season, while during the summer period, heat from cooling of the direct carbon fuel cells can be utilized in the process of cool air production (chilled air) using absorption chillers for e.g. air conditioning. This paper presents a case study and simulation calculations of the system composed of MH-DCFC that generates electricity, and runs heat exchangers and an absorption chiller, integrated with the fuel cell to generate heating and cooling for improving the efficiency of the whole system. The maximum heat and cool streams that can be obtained during the operation of the cell were also evaluated. The results obtained in the study can be helpful in the design of autonomous buildings equipped in direct carbon fuel cells as sources of electricity integrated with the systems of heat and cool generation.https://www.mdpi.com/1996-1073/11/11/3061direct carbon fuel cellcogenerationtrigenerationabsorption chillersheatingelectricity generationenergy storage
collection DOAJ
language English
format Article
sources DOAJ
author Robert Zarzycki
Andrzej Kacprzak
Zbigniew Bis
spellingShingle Robert Zarzycki
Andrzej Kacprzak
Zbigniew Bis
The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold
Energies
direct carbon fuel cell
cogeneration
trigeneration
absorption chillers
heating
electricity generation
energy storage
author_facet Robert Zarzycki
Andrzej Kacprzak
Zbigniew Bis
author_sort Robert Zarzycki
title The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold
title_short The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold
title_full The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold
title_fullStr The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold
title_full_unstemmed The Use of Direct Carbon Fuel Cells in Compact Energy Systems for the Generation of Electricity, Heat and Cold
title_sort use of direct carbon fuel cells in compact energy systems for the generation of electricity, heat and cold
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2018-11-01
description The study presents a concept and calculations concerning the operation of the direct carbon fuel cell (DCFC) with molten hydroxide electrolyte (MH-DCFC) as the basic source of electricity integrated with heat and cool air generation systems. The technology of direct carbon fuel cells assumes the direct use of a carbon fuel (such as fossil coal, carbonized biomass, graphite, coke etc.) to generate electricity with high efficiency and low impact on the environment. These cells operate by utilizing carbon fuel in the range of temperatures of 673⁻973 K and allow for generation of electricity with an efficiency of about 56%. In order to improve the fuel conversion efficiency, the heat generated in the process of cell cooling can be used to prepare hot water, for heating during the heating season, while during the summer period, heat from cooling of the direct carbon fuel cells can be utilized in the process of cool air production (chilled air) using absorption chillers for e.g. air conditioning. This paper presents a case study and simulation calculations of the system composed of MH-DCFC that generates electricity, and runs heat exchangers and an absorption chiller, integrated with the fuel cell to generate heating and cooling for improving the efficiency of the whole system. The maximum heat and cool streams that can be obtained during the operation of the cell were also evaluated. The results obtained in the study can be helpful in the design of autonomous buildings equipped in direct carbon fuel cells as sources of electricity integrated with the systems of heat and cool generation.
topic direct carbon fuel cell
cogeneration
trigeneration
absorption chillers
heating
electricity generation
energy storage
url https://www.mdpi.com/1996-1073/11/11/3061
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