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ABSTRACT
The role of a heat transfer fluid is to transport heat from a heat source to a heat sink, while maintaining all constraints: technical (reduced heat losses, low fluid transport energy consumption), safety and reduced environmental impact, economic constraints (related to the size of the auxiliary pumping, compression or ventilation but also the size of the heat exchanger providing heat transfer between the coolant and the source and the heat sink). Their selection for a thermal process is the result of a complex process of evaluating various parameters and criteria.
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Christophe MARVILLET: Professor at Cnam (Conservatoire national des Arts et métiers), - Director, IFFI (Institut français du froid industriel et du génie climatique), Paris, France - Editor's note: this article is the updated version of article [BE 9 570].
INTRODUCTION
The applications of heat transfer fluids for heating in industrial processes are extremely varied, involving a wide variety of fluids due to the wide temperature range encountered in these processes: gases, liquid metals, molten salts, organic fluids. Applications for refrigerant fluids for process cooling at sub-ambient temperatures include industrial and commercial refrigeration and air conditioning. Although they operate in a much smaller temperature range (– 70/+ 20 °C), these fluids are also of varied natures, due to the diversity of constraints that need to be taken into account when choosing them: energy and economic criteria, but also safety and environmental impact criteria. After outlining the main categories of refrigerant and heat transfer fluids and illustrating this presentation with examples of applications, we give an exhaustive list of the criteria for choosing heat transfer and refrigerant fluids, focusing on their field of use, energy system operating constraints and, of course, technical and economic criteria.
This study on heat and cold transfer fluids consists of three articles:
The Ultimate Scientific and Technical Reference
KEYWORDS
heat transfer fluid | district heating and cooling | industrial thermal | heat exchange | plate heat exchanger | heat exchanger
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Industrial thermal engineering
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Heat and cold transfer fluids
Main fluids and their applications
Bibliography
- Association française du froid - Guide technique pour le refroidissement indirect. - http://www. association-francaise-du-froid.fr/ouvrages.php
- ASHRAE handbook....
Software tools
COOLPACK, software for calculating fluid physical properties and thermodynamic cycles https://www.ipu.dk/products/coolpack/
EES, equation solver with fluid database
ECHTHERM, a software package developed by GRETh to calculate heat exchangers, including a fluid database
Regulations
Regulation (EU) No 517/2014 of the European Parliament and of the Council of 16 April 2014 on fluorinated greenhouse gases and repealing Regulation (EC) No 842/2006. Text of April 16, 2014, published in the Official Journal of the European Union on May 20, 2014. https://aida.ineris.fr/consultation_document/30790
Organizations
Associations
IIF/IIR Institut international du froid/International Institute of Refrigeration http://www.iifiir.org
ASHRAE American Society of Heating, Refrigerating and Air-Conditioning Engineers http://www.ashrae.org
AFF Association...
Commercial fluids
The names and suppliers of the main commercial fluids are listed in tables 1 and 2...
The Ultimate Scientific and Technical Reference
