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For the Inventor, By the Inventor

Mountain View, CA, United States of America

Douglas Gottschlich

USPTO Granted Patents = 11

Average Co-Inventor Count = 2.8

ph-index = 6

Forward Citations = 129(Granted Patents)


Location History:

  • Mountain View, CA (US) (1997 - 2002)
  • Redwood City, CA (US) (2012 - 2018)

Company Filing History:

goldMedal11 out of 181 
 
Membrane Technology and Research, Inc
 patents

Years Active: 1997-2018

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11 patents (USPTO):Explore Patents
1. 10017434 - Membrane-based gas separation processes to separate dehydrogenation reaction products (2018-07-10),
2. 9517981 - Membrane-based gas separation processes to separate dehydrogenation reaction products (2016-12-13),
3. 8771637 - Gas separation process for production of hydrogen by autothermal reforming of natural gas, with carbon dioxide recovery (2014-07-08),
4. 8168685 - Process for the production of methanol including one or more membrane separation steps (2012-05-01),
5. 6428606 - Membrane gas separation process with compressor interstage recycle (2002-08-06),
6. 6118021 - Membrane process for argon purging from vinyl acetate reactors (2000-09-12),
7. 6018060 - Membrane process and apparatus for argon purging from oxidation reactors (2000-01-25),
8. 5817841 - Membrane process for argon purging from ethylene oxide reactors (1998-10-06),
9. 5769927 - Monomer recovery process (1998-06-23),
10. 5755855 - Separation process combining condensation, membrane separation and flash (1998-05-26),
11. 5611841 - Vapor recovery process using baffled membrane module (1997-03-18),

Title: Innovations of Douglas Gottschlich in Gas Separation Technologies

Introduction

Douglas Gottschlich is a prominent inventor based in Mountain View, CA, with a remarkable portfolio of 11 patents. His work primarily focuses on membrane-based gas separation processes, which are crucial for recovering valuable hydrocarbons from raw gas streams.

Latest Patents

Among his latest innovations, Gottschlich has developed gas separation processes designed to separate dehydrogenation reaction products. These processes aim to recover hydrocarbons, specifically olefins such as propylene and iso-butene, along with unreacted feedstock. The innovative methods utilize a sequence of partial condensation steps, interspersed with membrane separation steps. This approach effectively raises the hydrocarbon dewpoint of the uncondensed gas, thereby eliminating the need for low-temperature or cryogenic conditions.

Career Highlights

Douglas Gottschlich is currently associated with Membrane Technology and Research, Inc., where he continues to advance the field of gas separation technologies. His contributions have significantly impacted the efficiency and effectiveness of hydrocarbon recovery processes.

Collaborations

Throughout his career, Gottschlich has collaborated with notable professionals in the field, including Richard W. Baker and Nicholas Patrick Wynn. These partnerships have fostered innovation and enhanced the development of advanced gas separation techniques.

Conclusion

Douglas Gottschlich's work in membrane-based gas separation processes exemplifies the importance of innovation in the field of hydrocarbon recovery. His patents and collaborations continue to shape the future of gas separation technologies.

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