Xiang Yin

Title: Innovations of Xiang Yin in Heat Pump Technology

Introduction

Xiang Yin is a notable inventor based in Shaanxi, China. He has made significant contributions to the field of heat pump technology, particularly focusing on transcritical carbon dioxide systems. With a total of 2 patents, his work is paving the way for advancements in energy efficiency and environmental sustainability.

Latest Patents

Xiang Yin's latest patents include a "Precooler-based transcritical CO2 heat pump system and control method of waterway two-way valve thereof." This invention describes a system where a transcritical CO2 heat pump is enhanced by a precooler system. The design features a circulating waterway divided into two parts, utilizing a three-way diversion valve and a three-way confluence valve, connected to a waterway bypass valve through a two-way regulating valve. The system is equipped with various sensors and a programmable logic controller for effective operation and control.

Another significant patent is the "Control method of transcritical carbon dioxide composite heat pump system." This invention outlines a control method for a composite heat pump system that includes a main circuit compressor and various components designed for efficient operation. The system is designed to operate in two modes based on return water temperature, allowing for a broader application range and meeting daily needs with a single heat exchanger for refrigerant and water.

Career Highlights

Xiang Yin is affiliated with Xi'an Jiaotong University, where he continues to engage in research and development in the field of heat pump technology. His academic background and innovative work contribute to the advancement of energy-efficient systems.

Collaborations

Xiang Yin collaborates with notable colleagues, including Feng Cao and Mingjia Li, who contribute to his research endeavors and innovations in heat pump technology.

Conclusion

Xiang Yin's contributions to heat pump technology through his innovative patents demonstrate his commitment to advancing energy efficiency. His work not only enhances the functionality of heat pump systems but also addresses environmental concerns, making a significant impact in the field.