Abstract
This paper proposes an energy-saving strategy with assistance from solar thermal compensation for building energy systems. The target of the control strategy was to minimize energy consumption under thermal comfort constraints in buildings. First, the factors influential to indoor temperature in building environments were analyzed. Secondly, the internal and external factors, such as building materials; building orientation; window size; heating, ventilation, and air conditioning (HVAC) facilities; blinding device; solar irradiation; wind speed; and outdoor temperature were used to construct a building model on the platform ENERGYPLUS (E+). A controller aiming to regulate the amount of solar irradiation was developed with the Building Controls Virtual Test Bed (BCVTB) tool. Afterward, the building performance under different strategies was tested by co-simulation using both the computational platforms, E+ and BCVTB. The optimum scheme achieved 30.6% energy savings while meeting the same comfort criterion of its competition strategy. The study verified that the proposed strategy of combined heating, ventilation, and air conditioning and blind control could realize the energy savings and comfort satisfaction at the same time. The proposed method provides a reference to the development of low-/zero-energy building concepts in the field.
Highlights
Tremendous attention has been given to the issues of energy saving and energy utilization in a clean way
This study proposed an innovative strategy that was subject to a joint target of reducing energy consumption, as well as maintaining occupant comfort, by incorporating solar radiation with HVAC operation
This paper proposed an innovative strategy for energy management in buildings while simultaneously realizing both energy savings and occupant comfort
Summary
Tremendous attention has been given to the issues of energy saving and energy utilization in a clean way. This study proposed an innovative strategy that was subject to a joint target of reducing energy consumption, as well as maintaining occupant comfort, by incorporating solar radiation with HVAC operation. For this purpose, a numerical model built on a joint platform of ENERGYPLUS [17] and the Building Control Virtual Test Bed (BCVTB) [18] was simulated and tested, in which the performance indicators of both thermal comfort and energy savings were evaluated. Solar gain was controlled by a blind in cooperation with HVAC operation
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