Simulation driven design approach and prototype development for low-cost high-efficiency room air conditioners using next generation refrigerants

Date Published
07/2026
Publication Type
Journal Article
Authors
DOI
10.1080/23744731.2026.2688048
Abstract

The global refrigerant transition requires the redesign of heating, ventilation and air-conditioning (HVAC) systems. Higher efficiency systems also reduce peak loads and allow better integration of secure, affordable, reliable base-load generation technologies. However, many small and medium-sized air conditioner (AC) manufacturers, particularly in developing and emerging economies, lack the technical capacity to design affordable, energy-efficient systems using next generation refrigerants. This study presents a simulation-driven design approach for developing cost-effective, high-efficiency mini-split AC prototypes using R32, R454B, and R290. Physics-based system models were developed in VapCyc® and CoilDesigner® to conduct component-level simulations and system optimization. Cost analysis was performed to minimize material costs, and optimal designs were validated under ISO 5151 conditions in a psychrometric chamber. All prototypes achieved 33% higher EER and nearly doubled cooling seasonal efficiency compared to reference units, with only a 2–16% increase in material cost. These results indicate an approximately twofold reduction in peak load and emissions at comparable cost. The proposed simulation-driven methodology shortens the product development cycle and enables reliable, high-performance, next generation AC designs, offering a practical pathway for manufacturers in emerging markets to accelerate the transition to sustainable cooling technologies, meeting grid reliability constraints, environmental regulations and market demands for affordability.

Journal
Science and Technology for the Built Environment
Year of Publication
2026
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