Ji Xian Loh

Title: Innovations of Ji Xian Loh in Polymer Production

Introduction

Ji Xian Loh is a notable inventor based in Houston, Texas, recognized for his contributions to the field of polymer production. He holds three patents that showcase his innovative approaches to component separation processes. His work is instrumental in enhancing efficiency and effectiveness in chemical engineering.

Latest Patents

One of Ji Xian Loh's latest patents is the "Membrane and pressure swing adsorption hybrid INRU process." This process involves separating a polymerization product stream into a gas stream and a polymer stream. It includes several steps, such as contacting the polymer stream with a purge gas to yield a purged polymer stream and a spent purge gas stream. The spent purge gas stream is then introduced to a compressor to produce a compressed gas stream. This compressed gas stream is sent to a first separation unit to generate a first hydrocarbon stream and a membrane unit feed stream. The membrane unit feed stream is processed in a membrane unit to produce a first recovered purge gas stream and a retentate stream. The retentate stream is subsequently introduced to a second separation unit to yield a second hydrocarbon stream and a PSA unit feed stream. Finally, the PSA unit feed stream is processed in a PSA unit to produce a second recovered purge gas stream and a tail gas stream.

Career Highlights

Ji Xian Loh is currently employed at Chevron Phillips Chemical Company LP, where he applies his expertise in chemical engineering to develop innovative solutions. His work has significantly impacted the efficiency of polymer production processes.

Collaborations

Throughout his career, Ji Xian Loh has collaborated with notable colleagues, including Joseph A Curren and Lei Ji. These collaborations have fostered a productive environment for innovation and development in their field.

Conclusion

Ji Xian Loh's contributions to polymer production through his innovative patents and collaborative efforts highlight his importance in the field of chemical engineering. His work continues to influence advancements in the industry.