Theoretical and experimental investigation of the evacuated tube solar water heater system

Sakulchangsatjatai, Phrut; Wannagosit, Chaiwat; Kammuang-lue, Niti; Terdtoon, Pradit

doi:10.2298/tsci180128002s

Cited by 2 publications

(2 citation statements)

References 15 publications

(27 reference statements)

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“…It can also be seen that with mass flow rate also affects the thermal performance and maximum useful energy is affected by parameters such as solar radiation and outlet temperature [5]. Also using the reflectors in the evacuated tube collector system, the efficiency increased by 16% and double the reflectors increases its performance [6]. The presence of air thermal resistance raises the temperature by 30℃ and its absence reduces the collector efficiency and outer temperature by 10% and 16% [7].…”

Section: Introductionmentioning

confidence: 99%

Experimental Analysis on Thermal Efficiency and Heat Loss of the Evacuated Tube Collector with Variable Solar Radition and Wind Speed

Kori,

Shakya,

Gupta

et al. 2023

IJRASET

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Carsharing initiatives can aid in addressing various urban issues by providing access to shared vehicles while restricting the use of private cars. With the growth of the Internet of Things, individuals can use their mobile devices to carry out basic tasks and access shared cars. However, such programs have security concerns, as confidential information, including user identification, location data, and access codes, is transmitted through public channels. This makes it possible for attackers to obtain this information for malicious purposes, underscoring the importance of developing a reliable authentication protocol to enhance security.

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Section: Introductionmentioning

confidence: 99%

Experimental Analysis on Thermal Efficiency and Heat Loss of the Evacuated Tube Collector with Variable Solar Radition and Wind Speed

Kori,

Shakya,

Gupta

et al. 2023

IJRASET

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“…ETCs are characterised by lower convective heat loss due to the presence of a vacuum in the tube spaces. They are used in countries with moderate climates [7,8].…”

Section: Introductionmentioning

confidence: 99%

Long-Term Performance of Anti-Freeze Protection System of a Solar Thermal System

Pater

2020

Processes

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In a moderate, transitory climate, to prevent freezing of outdoor pipes and collectors in solar thermal systems, anti-freezing fluids are commonly used. There is little experience of using water without any additives as a solar thermal fluid in such a climate. Based on these findings, to fill the knowledge gap this article presents the long-term results of thermal performance and anti-freeze protection of a solar heating system with heat pipe evacuated tube collectors with water as a solar thermal fluid. The operation of this system under real conditions was analysed for five years in southern Poland. The annual value of solar insolation ranged from 839 to almost 1000 kWh/m2. The monthly efficiency of the solar collectors from March to October was usually higher than 25%, and the lowest was between November and January. The anti-freeze protection system consumed annually from 7 to 13% of the heat generated by the collectors in the installation. Supporting the operation of the central heating system in the building during the winter season highly improved the efficiency of the solar collectors. Results show that it is possible to use water without any additives as a solar thermal fluid in a moderate, transitory climate.

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Theoretical and experimental investigation of the evacuated tube solar water heater system

Cited by 2 publications

References 15 publications

Experimental Analysis on Thermal Efficiency and Heat Loss of the Evacuated Tube Collector with Variable Solar Radition and Wind Speed

Experimental Analysis on Thermal Efficiency and Heat Loss of the Evacuated Tube Collector with Variable Solar Radition and Wind Speed

Long-Term Performance of Anti-Freeze Protection System of a Solar Thermal System

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