Heat transfer fluids in parabolic trough collector (PTC) : A review study

A solar thermal collector is a heat collector that absorbs heat via sunlight. It is a device that turns the thermal energy in sunshine or solar radiation into a useful and storable form. This energy is conveyed via electromagnetic radiation with wavelengths ranging from infrared (long) to ultraviole...

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Hauptverfasser:	Jabbar, Hussein Ali, Hachim, Dhafer Manea, Alwan, Kareem J.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Alternative energy sources Concentrators Efficiency Electromagnetic radiation Energy resources Heat transfer High temperature Liquid sodium Low cost Molten salts Performance evaluation Physical properties Radiation Renewable energy sources Renewable resources Sodium Solar collectors Solar energy Solar heating Solar radiation Thermal conductivity Thermal energy Thermodynamic efficiency Working fluids
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creator	Jabbar, Hussein Ali Hachim, Dhafer Manea Alwan, Kareem J.
description	A solar thermal collector is a heat collector that absorbs heat via sunlight. It is a device that turns the thermal energy in sunshine or solar radiation into a useful and storable form. This energy is conveyed via electromagnetic radiation with wavelengths ranging from infrared (long) to ultraviolet (short). Solar energy is one of the cleanest and most versatile renewable energy sources when compared to other renewable energy sources. Solar trough collectors (PTC), Compound Parabolic Collectors (CPC), Linear Fresnel Collectors (LFC), Solar Towers, and Solar Dish Collectors are all types of solar concentrator systems. One of the most common types of solar concentrators is the parabolic trough collector (PTC). Working fluids, also known as heat transfer fluids (HTFs), are a crucial component of (PTC) that will be investigated. Water, thermal oil, molten salts, and gases are just a few of the working fluids used in the parabolic trough collector, all of which types operate in a temperature range. This research evaluates thermal performance of a parabolic trough collector by employing different heat transfer fluids (HTFs) at a temperature range up to 823 K under various operating conditions. The fundamental physical parameters, such as specific heat, density, viscosity, and thermal conductivity of working fluids (HTFs) and their output temperatures, thermal efficiency, advantages, disadvantages, and cost of the working fluids are also presented. After comparing the various working fluids which are used in parabolic trough collectors (PTC), it is found that Liquid Sodium is the most reliable heat transfer fluid (HTF) based on number of factors, including useful energy, thermal efficiency, low cost, high temperature operation range, and physical qualities in operation. Liquid sodium provides good thermal performance factors, including useful energy, thermal efficiency, low cost, and a high temperature operation range.
doi_str_mv	10.1063/5.0135997
format	Conference Proceeding
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It is a device that turns the thermal energy in sunshine or solar radiation into a useful and storable form. This energy is conveyed via electromagnetic radiation with wavelengths ranging from infrared (long) to ultraviolet (short). Solar energy is one of the cleanest and most versatile renewable energy sources when compared to other renewable energy sources. Solar trough collectors (PTC), Compound Parabolic Collectors (CPC), Linear Fresnel Collectors (LFC), Solar Towers, and Solar Dish Collectors are all types of solar concentrator systems. One of the most common types of solar concentrators is the parabolic trough collector (PTC). Working fluids, also known as heat transfer fluids (HTFs), are a crucial component of (PTC) that will be investigated. Water, thermal oil, molten salts, and gases are just a few of the working fluids used in the parabolic trough collector, all of which types operate in a temperature range. This research evaluates thermal performance of a parabolic trough collector by employing different heat transfer fluids (HTFs) at a temperature range up to 823 K under various operating conditions. The fundamental physical parameters, such as specific heat, density, viscosity, and thermal conductivity of working fluids (HTFs) and their output temperatures, thermal efficiency, advantages, disadvantages, and cost of the working fluids are also presented. After comparing the various working fluids which are used in parabolic trough collectors (PTC), it is found that Liquid Sodium is the most reliable heat transfer fluid (HTF) based on number of factors, including useful energy, thermal efficiency, low cost, high temperature operation range, and physical qualities in operation. 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subjects	Alternative energy sources Concentrators Efficiency Electromagnetic radiation Energy resources Heat transfer High temperature Liquid sodium Low cost Molten salts Performance evaluation Physical properties Radiation Renewable energy sources Renewable resources Sodium Solar collectors Solar energy Solar heating Solar radiation Thermal conductivity Thermal energy Thermodynamic efficiency Working fluids
title	Heat transfer fluids in parabolic trough collector (PTC) : A review study
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