Company Filing History:
Years Active: 2025
Title: Innovations of Xiaoyun Yin in Foam Generation Technology.
Introduction
Xiaoyun Yin is a notable inventor based in Chengdu, China. She has made significant contributions to the field of foam generation and performance evaluation under extreme conditions. Her innovative work is particularly relevant in industries that require advanced materials and processes.
Latest Patents
Xiaoyun Yin holds a patent for an "Efficient generation and performance evaluation device of foam under high temperature and high pressure." This device includes a reaction kettle, a water bath thermostatic box, a porous hollow steel circular plate, a rotator, a multilayer spiral steel wire mesh, a spring hinge, a gas diffuser with vortex shape, a light-emitting diode (LED) lamp, valves, a screw pump, a pressure transmitter, a temperature transmitter, a fluid reservoir, a gas reservoir, and a data collection and analysis device. The device is designed to determine the foamability and stability of foam by injecting foam solution and gas into the reaction kettle. It observes the foaming volume and half-life period of the foam after the gas fully contacts the foam solution. Additionally, the device can assess oil resistance and salt resistance of the foam under high temperature and high pressure conditions. Xiaoyun Yin has 1 patent to her name.
Career Highlights
Xiaoyun Yin is affiliated with Southwest Petroleum University, where she continues to advance her research and development efforts. Her work is instrumental in enhancing the understanding of foam behavior in challenging environments, which has implications for various industrial applications.
Collaborations
Xiaoyun Yin collaborates with Ziqiang Wang, who is also involved in research related to foam technologies. Their partnership contributes to the innovative advancements in this field.
Conclusion
Xiaoyun Yin's contributions to foam generation technology highlight her role as a pioneering inventor. Her patented device represents a significant advancement in the evaluation of foam performance under extreme conditions.