Abstract
When using a certain type of Heating, Ventilation & Air Conditioning (HVAC) systems, it is primary to obtain their steady-state operating behaviors for achieving a better indoor thermal environment. This paper reports a development of a white-box-based dynamic model for a direct expansion (DX) air conditioning (A/C) system to predict its steady-state operating performance under variable speed operation. The established model consists of five sub-models, i.e., a compressor, an electronic expansion valve, an evaporator, a condenser and a conditioned space. Each sub-model was developed based on partial lumped parameter approach. Using the available data generated from an experimental DX A/C system, both transient and steady-state behaviors predictions agreed well with the experimental ones. With the help of the validated white-box model, the inherent steady-state operating performance expressed in terms of the relationship among total cooling capacity (TCC), equipment sensible heat ratio (E SHR) and coefficient of performance (COP) under various speed combinations of compressor and supply fan were further examined. The results show that a higher COP could be achieved when the DX A/C system was operated at a higher fan speed or a lower compressor speed for dealing with a larger required E SHR. This model could be helpful for A/C system design and controller development.
Highlights
Direct expansion (DX) air conditioning (A/C) systems are one of the predominated employedHVAC systems in buildings for providing a comfortable indoor thermal environment, in residential buildings
The results show that the output total cooling capacity (TCC) of the DX A/C system was mainly affected by varying compressor speed
The results indicate that that a lower surface area ratio of the two DX evaporators gave larger variation ranges of both TCC and equipment sensible heat ratio (E sensible heat ratio (SHR))
Summary
Direct expansion (DX) air conditioning (A/C) systems are one of the predominated employed. They showed that the proposed system could enlarge the output range of a DX A/C system As another primary way to investigate steady-state operating performance of HVAC systems, the modeling approach can be classified into three different categories: white-box-based, black-box-based and grey-box-based methods [15]. Chen et al [21] developed a steady-state physical-based mathematical model for a standalone air conditioning system equipped with two DX evaporators for providing enhanced dehumidification ability. Li et al [25] developed a black-box-based model for an experimental DX A/C system using ANN to predict its output TCC and E SHR under different combinations of compressor and supply fan speeds. In this paper, the development of a white-box-based dynamic model for a DX A/C system is reported to examine the steady-state operating performance under different compressor and fan speeds.
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