Ibáñez López, Antonio Santiago
Linares Hurtado, José Ignacio
Cledera Castro, María del Mar
Moratilla Soria, Beatriz Yolanda
2016-01-26T14:04:30Z
2016-01-26T14:04:30Z
15/04/2014
2213-1388
http://hdl.handle.net/11531/5924
Artículos en revistas
.
Cogeneration technologies are increasingly being utilised in the construction sector. Micro-cogeneration
technologies only become economically feasible after they have been in operation over a lengthy period
of time and this makes necessary the sizing of appropriate storage systems. The integration of cogeneration
within overall heating and cooling loads requires the use of complicated simulation codes.
However the need for this integration can be removed with the design of a cogeneration system which
only covers the thermal demand required for the provision of domestic hot water, this demand being relatively
easy to forecast. Based on a given domestic hot water demand, a calculation procedure for sizing
the storage system is presented. This procedure is experimentally validated with only minor differences
between expected and actual results, this being attributable to the limitations of the experimental set-up.
It achieves more than acceptable results when compared with other model designed for heating applications
in the building sector.
application/pdf
es-ES
Revista: Sustainable Energy Technologies and Assessments, Periodo: 3, Volumen: 5, Número: , Página inicial: 37, Página final: 43
Sizing of thermal energy storage devices for micro-cogeneration systems for the supply of domestic hot water
info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
info:eu-repo/semantics/restrictedAccess
.
Cogeneration
Domestic hot water
Stratified hot water storage system