12TH IIR GUSTAV LORENTZEN NATURAL WORKING FLUIDS CONFERENCE

Harald Berresheim

doi:10.18462/iir.gl.2016.1020

12TH IIR GUSTAV LORENTZEN NATURAL WORKING FLUIDS CONFERENCE

Harald Berresheim

Physics

Research output: Chapter in Book or Conference Publication/Proceeding › Conference Publication › peer-review

Abstract

This paper presents preliminary experimental test results for a novel truck auxiliary power unit (APU) design consisting of a 1 kW(e) free-piston Stirling engine and 2 kW(t) zeolite-water adsorption chiller that is powered via waste heat from the engines cooling jacket. A prototype system was built and tested to study the interaction dynamics between the Stirling engine and adsorption chiller and to determine the performance of the chiller in extreme ambient temperature conditions. The results show that pulsed thermal loading from the chiller on the engine results in engine power spikes to 110-115% of rated power. An average COP of 0.32 + - 0.06 was achieved for the adsorption chiller and its capacity varied in the range of similar to 1-3 kW(t) as the recooler temperature was varied from 25-45 degrees C. The proposed system has many benefits over existing technologies such as low noise, high reliability and clean emissions without any need for additional exhaust treatment.

Original language	English (Ireland)
Title of host publication	HYBRID STIRLING ENGINE-ADSORPTION CHILLER FOR TRUCK AUXILIARY POWER UNIT APPLICATIONS
Number of pages	8
DOIs	https://doi.org/10.18462/iir.gl.2016.1020
Publication status	Published - 1 Jan 2016

Authors (Note for portal: view the doc link for the full list of authors)

Authors
Flannery, B,Finckh, O,Berresheim, H,Monaghan, RFD,

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10.18462/iir.gl.2016.1020

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title = "12TH IIR GUSTAV LORENTZEN NATURAL WORKING FLUIDS CONFERENCE",

abstract = "This paper presents preliminary experimental test results for a novel truck auxiliary power unit (APU) design consisting of a 1 kW(e) free-piston Stirling engine and 2 kW(t) zeolite-water adsorption chiller that is powered via waste heat from the engines cooling jacket. A prototype system was built and tested to study the interaction dynamics between the Stirling engine and adsorption chiller and to determine the performance of the chiller in extreme ambient temperature conditions. The results show that pulsed thermal loading from the chiller on the engine results in engine power spikes to 110-115% of rated power. An average COP of 0.32 + - 0.06 was achieved for the adsorption chiller and its capacity varied in the range of similar to 1-3 kW(t) as the recooler temperature was varied from 25-45 degrees C. The proposed system has many benefits over existing technologies such as low noise, high reliability and clean emissions without any need for additional exhaust treatment.",

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year = "2016",

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doi = "10.18462/iir.gl.2016.1020",

language = "English (Ireland)",

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N2 - This paper presents preliminary experimental test results for a novel truck auxiliary power unit (APU) design consisting of a 1 kW(e) free-piston Stirling engine and 2 kW(t) zeolite-water adsorption chiller that is powered via waste heat from the engines cooling jacket. A prototype system was built and tested to study the interaction dynamics between the Stirling engine and adsorption chiller and to determine the performance of the chiller in extreme ambient temperature conditions. The results show that pulsed thermal loading from the chiller on the engine results in engine power spikes to 110-115% of rated power. An average COP of 0.32 + - 0.06 was achieved for the adsorption chiller and its capacity varied in the range of similar to 1-3 kW(t) as the recooler temperature was varied from 25-45 degrees C. The proposed system has many benefits over existing technologies such as low noise, high reliability and clean emissions without any need for additional exhaust treatment.

AB - This paper presents preliminary experimental test results for a novel truck auxiliary power unit (APU) design consisting of a 1 kW(e) free-piston Stirling engine and 2 kW(t) zeolite-water adsorption chiller that is powered via waste heat from the engines cooling jacket. A prototype system was built and tested to study the interaction dynamics between the Stirling engine and adsorption chiller and to determine the performance of the chiller in extreme ambient temperature conditions. The results show that pulsed thermal loading from the chiller on the engine results in engine power spikes to 110-115% of rated power. An average COP of 0.32 + - 0.06 was achieved for the adsorption chiller and its capacity varied in the range of similar to 1-3 kW(t) as the recooler temperature was varied from 25-45 degrees C. The proposed system has many benefits over existing technologies such as low noise, high reliability and clean emissions without any need for additional exhaust treatment.

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DO - 10.18462/iir.gl.2016.1020

M3 - Conference Publication

BT - HYBRID STIRLING ENGINE-ADSORPTION CHILLER FOR TRUCK AUXILIARY POWER UNIT APPLICATIONS

ER -

12TH IIR GUSTAV LORENTZEN NATURAL WORKING FLUIDS CONFERENCE

Abstract

Authors (Note for portal: view the doc link for the full list of authors)

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