Primary energy factor of a district cooling system

Tjaša Duh Čož (Author), Andrej Kitanovski (Author), Alojz Poredoš (Author)

Abstract

The primary energy efficiency for various energy-related processes can be calculated using the primary energy factor (PEF). In this paper, the PEFs of district cooling systems (PEF DC) for different types of cold production are derived. These concern cold production with an absorption chiller driven by different available sources and cold production with a compressor chiller driven by different types of engines and related energy sources. Based on the fundamental definition of the PEF, a mathematical model for calculating the PEF DC for different types of cold production was developed. The results in this study reveal that the PEF DC can be significantly improved in the case of combined cooling and power generation. The PEF DC in the case of combined cooling and power generation is lower than when cooling with electrically driven compressor chillers when the energy efficiency of the electricity generation in thermal power plant is low or the PEF of the electricity (PEF el) is high. In cold production technologies where coal is used as the primary energy source more primary energy is consumed compared to other primary energy sources (i.e. naturaThe primary energy efficiency for various energy-related processes can be calculated using the primary energy factor (PEF). In this paper, the PEFs of district cooling systems (PEF DC) for different types of cold production are derived. These concern cold production with an absorption chiller driven by different available sources and cold production with a compressor chiller driven by different types of engines and related energy sources. Based on the fundamental definition of the PEF, a mathematical model for calculating the PEF DC for different types of cold production was developed. The results in this study reveal that the PEF DC can be significantly improved in the case of combined cooling and power generation. The PEF DC in the case of combined cooling and power generation is lower than when cooling with electrically driven compressor chillers when the energy efficiency of the electricity generation in thermal power plant is low or the PEF of the electricity (PEF el) is high. In cold production technologies where coal is used as the primary energy source more primary energy is consumed compared to other primary energy sources (i.e. natural gas, waste heat, etc.).

Keywords

faktor primarne energije;proizvodnja hladu;daljinsko hlajenje;hladilnik;

Data

Language:	English
Year of publishing:	2016
Typology:	1.01 - Original Scientific Article
Organization:	UL FS - Faculty of Mechanical Engineering
UDC:	621.565.9(045)
COBISS:	15130651
ISSN:	0039-2480
Parent publication:	Strojniški vestnik
Views:	282
Downloads:	109
Average score:	0 (0 votes)
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Other data

Secondary language:	Slovenian
Secondary title:	Faktor primarne energije sistema daljinskega hlajenja
Secondary abstract:	V zadnjem desetletju EU zavzema aktivnejšo vlogo na področju energijske učinkovitosti oziroma zmanjšanja rabe energije ter na področju izkoriščanja obnovljivih virov energije. Kot orodje za določitev energijsko učinkovitejših procesov v smislu minimalne rabe primarne energije nam lahko služi faktor primarne energije (PEF). Definiran je kot razmerje med celotno primarno energijo, ki je potrebna za proizvodnjo nekega končnega energetskega produkta, in končnim energetskim produktom. V primeru sistema daljinskega hlajenja je energetski produkt hlad, ki ga dobavljamo končnim odjemalcem. Faktor primarne energije upošteva energijo, ki je potrebna za pretvorbo primarnih virov energije, shranjevanje, transport, distribucijo končnega produkta do odjemalcev ter celotne izgube, povezane s temi procesi.
Secondary keywords:	primary energy factor;combined generation;district cooling;chillers;
URN:	URN:NBN:SI
Type (COBISS):	Article
Pages:	str. 717-729, SI 123
Volume:	ǂVol. ǂ62
Issue:	ǂno. ǂ12
Chronology:	Dec. 2016
DOI:	10.5545/sv-jme.2016.3777
ID:	12783223