Experimental investigation of effect of variation of mass flow rate on performance of parabolic dish water heater with non-coated receiver

Atul A. Sagade

doi:10.1080/14786451.2013.855777

Experimental investigation of effect of variation of mass flow rate on performance of parabolic dish water heater with non-coated receiver

Atul A. Sagade

New Satara College of Engineering and Management (Polytechnic)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

5 Citas (Scopus)

Resumen

Concentrated solar collectors have high efficiency. Therefore, when concentrating collectors are used for water heating application, the system yields higher efficiency. From a hot climate perspective, there is a huge potential available for low-cost solar water heating systems. With the system described in this paper, the needs of hot water in the domestic sector can be fulfilled instantly. Authors used the parabolic dish collector for instant water heating. This paper describes the effect of variation of mass flow rate on performance of the parabolic dish water heater prototype. Design of the solar parabolic dish collector consists of a novel truncated cone-shaped helical coiled receiver made up of copper at focal point. This prototype was evaluated for its performance during the month of April and May 2010.

Idioma original	Inglés
Páginas (desde-hasta)	645-656
Número de páginas	12
Publicación	International Journal of Sustainable Energy
Volumen	34
N.º	10
DOI	https://doi.org/10.1080/14786451.2013.855777
Estado	Publicada - 26 nov. 2015
Publicado de forma externa	Sí

ODS de las Naciones Unidas

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title = "Experimental investigation of effect of variation of mass flow rate on performance of parabolic dish water heater with non-coated receiver",

abstract = "Concentrated solar collectors have high efficiency. Therefore, when concentrating collectors are used for water heating application, the system yields higher efficiency. From a hot climate perspective, there is a huge potential available for low-cost solar water heating systems. With the system described in this paper, the needs of hot water in the domestic sector can be fulfilled instantly. Authors used the parabolic dish collector for instant water heating. This paper describes the effect of variation of mass flow rate on performance of the parabolic dish water heater prototype. Design of the solar parabolic dish collector consists of a novel truncated cone-shaped helical coiled receiver made up of copper at focal point. This prototype was evaluated for its performance during the month of April and May 2010.",

keywords = "effect of variation of mass flow rate, high efficiency, instant water heating, solar thermal energy, standard test conditions, truncated cone type helical coiled receiver",

author = "Sagade, \{Atul A.\}",

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AU - Sagade, Atul A.

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N2 - Concentrated solar collectors have high efficiency. Therefore, when concentrating collectors are used for water heating application, the system yields higher efficiency. From a hot climate perspective, there is a huge potential available for low-cost solar water heating systems. With the system described in this paper, the needs of hot water in the domestic sector can be fulfilled instantly. Authors used the parabolic dish collector for instant water heating. This paper describes the effect of variation of mass flow rate on performance of the parabolic dish water heater prototype. Design of the solar parabolic dish collector consists of a novel truncated cone-shaped helical coiled receiver made up of copper at focal point. This prototype was evaluated for its performance during the month of April and May 2010.

AB - Concentrated solar collectors have high efficiency. Therefore, when concentrating collectors are used for water heating application, the system yields higher efficiency. From a hot climate perspective, there is a huge potential available for low-cost solar water heating systems. With the system described in this paper, the needs of hot water in the domestic sector can be fulfilled instantly. Authors used the parabolic dish collector for instant water heating. This paper describes the effect of variation of mass flow rate on performance of the parabolic dish water heater prototype. Design of the solar parabolic dish collector consists of a novel truncated cone-shaped helical coiled receiver made up of copper at focal point. This prototype was evaluated for its performance during the month of April and May 2010.

KW - effect of variation of mass flow rate

KW - high efficiency

KW - instant water heating

KW - solar thermal energy

KW - standard test conditions

KW - truncated cone type helical coiled receiver

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JO - International Journal of Sustainable Energy

JF - International Journal of Sustainable Energy

IS - 10

ER -

Experimental investigation of effect of variation of mass flow rate on performance of parabolic dish water heater with non-coated receiver

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