Company Filing History:
Years Active: 2020
Title: Innovations by Quantum J Wei in Reverse Osmosis Technology
Introduction
Quantum J Wei is an accomplished inventor based in Cambridge, MA, known for his significant contributions to the field of reverse osmosis technology. With a focus on improving water purification systems, he has developed innovative solutions that enhance efficiency and performance.
Latest Patents
Quantum J Wei holds a patent for "Multi-stage reverse osmosis systems and methods." This invention features improved reverse osmosis (RO) systems that include at least first and second stages, each equipped with RO membranes. The design incorporates a feed stream inlet, permeate stream outlet, and concentrate stream outlet for each stage. The feed stream inlet of the second stage is connected to the concentrate stream outlet of the first stage. The system operates with the first stage feed stream pressurized to a first pressure and the second stage feed stream pressurized to a second pressure, which is greater than the first. The configuration ensures that the flux of the permeate streams from both stages has minimized spatial variance. Quantum J Wei's innovative approach includes M number of reverse osmosis membranes in the first stage and N number of membranes in the second stage, with the condition that M is greater than or equal to N. He has been granted 1 patent for this groundbreaking work.
Career Highlights
Quantum J Wei is affiliated with the Massachusetts Institute of Technology, where he continues to advance research in water purification technologies. His work has garnered attention for its potential to revolutionize the efficiency of reverse osmosis systems.
Collaborations
Quantum J Wei collaborates with notable colleagues, including Ronan Killian McGovern and John H Lienhard, who contribute to the research and development of innovative solutions in the field.
Conclusion
Quantum J Wei's contributions to reverse osmosis technology exemplify the impact of innovative thinking in addressing critical challenges in water purification. His work not only enhances system efficiency but also paves the way for future advancements in the field.