An experimental study and computational validation of waste heat recovery from a lab scale ceramic kiln using a vertical multi-pass heat pipe heat exchanger
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Scholar |
Otros documentos de la autoría: Brough, Daniel; Mezquita, Ana; Ferrer Castán, Salvador; Segarra Ferrando, Carmen; Chauhan, Amisha; Almahmoud, Sulaiman; Khordehgah, Navid; Ahmad, Lujean; Middleton, David; Sewell, H. Isaac; Jouhara, Hussam
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https://doi.org/10.1016/j.energy.2020.118325 |
Metadatos
Título
An experimental study and computational validation of waste heat recovery from a lab scale ceramic kiln using a vertical multi-pass heat pipe heat exchangerAutoría
Fecha de publicación
2020Editor
ElsevierCita bibliográfica
BROUGH, Daniel, et al. An experimental study and computational validation of waste heat recovery from a lab scale ceramic kiln using a vertical multi-pass heat pipe heat exchanger. Energy, 2020, vol. 208, p. 118325.Tipo de documento
info:eu-repo/semantics/articleVersión de la editorial
https://www.sciencedirect.com/science/article/abs/pii/S0360544220314328Versión
info:eu-repo/semantics/publishedVersionPalabras clave / Materias
Resumen
The development of waste heat recovery technologies has surged as a result of climate change initiatives, which require energy intensive industries to curb their emissions and lower energy consumption. Installing heat ... [+]
The development of waste heat recovery technologies has surged as a result of climate change initiatives, which require energy intensive industries to curb their emissions and lower energy consumption. Installing heat pipe heat exchangers has proven to be a reliable and effective method of recovering waste heat due to their passive operation, superconductive properties and small footprint. This paper highlights the application of a vertical multi-pass heat pipe heat exchanger to a lab scale ceramic kiln system used to transfer heat from the kiln exhaust to water. The innovative heat pipe heat exchanger exists as a novel variable unit able to recover heat energy for a range of inlet temperatures and flow rates. The installed unit has shown a heat recovery rate of up to 63 kW. A range of exhaust gas temperatures from 135 to 270 °C were trialled at varying heat source and sink mass flow rates. The results of the experiments as well as simulation results using a model built using the software TRNSYS are given. The investigation has confirmed that the TRNSYS simulation results agree well with the experimental results. Additionally, return on investment analysis predicted 33 months payback for a theoretical full-scale unit preheating water for space heating. [-]
Publicado en
Energy, 2020, v. 208Derechos de acceso
http://rightsstatements.org/vocab/CNE/1.0/
info:eu-repo/semantics/restrictedAccess
info:eu-repo/semantics/restrictedAccess
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