Performance Analysis of an Air-Source Heat Pump andSolid Thermal Energy Storage Staged Series HeatingSystem in Severe Cold Regions

Contenido principal del artículo

Xin Zhou
Zuoxia Xing
Chao Zhang

Resumen

In regions with severe cold, both air-source heat pumps (ASHP) and
solid thermal energy storage (STES) systems have performance limitations when
used for heating in isolation. This paper addresses MW-scale heating demands
by developing a model for the series-connected, coordinated operation of ASHPs
and STES, and analyses system performance under different ambient and
intermediate temperatures. The results indicate that a decrease in ambient
temperature leads to a significant drop in the ASHP’s coefficient of performance
(COP), with a particularly marked decline below–15 ℃. The ASHP-STES
system optimizes heat pump operating conditions through staged heating; under
conditions of–20 ℃ to–25 ℃, total energy consumption is reduced by
approximately 1.05% and 10.78% compared with ASHP and STES-ASHP
systems, respectively. Its total power consumption exhibits a U-shaped variation
with intermediate temperature, reaching an optimum in the 80–85 ℃ range,
resulting in energy savings of 1.4% to 5.1% compared with the ASHP system. In
contrast, the STES-ASHP system consistently fails to demonstrate any energy
efficiency advantage. When the ambient temperature exceeds–10 ℃, standalone
ASHP heating is optimal; when it falls below–15 ℃, the ASHP-STES system
offers greater energy-saving benefits.

Downloads

Download data is not yet available.

Detalles del artículo

Sección

Articles

Cómo citar

Performance Analysis of an Air-Source Heat Pump andSolid Thermal Energy Storage Staged Series HeatingSystem in Severe Cold Regions. (2026). International Conference on Energy, Intelligence Systems, and Cloud Computing (Ingenio 2026), 1(1). https://ingeniot.uclm.es/editorial/index.php/ingenio26/article/view/46

Referencias

Artículos más leídos del mismo autor/a

Artículos similares

También puede Iniciar una búsqueda de similitud avanzada para este artículo.