Paul Y Su

20130303819, Nov 14, 2013

Feb 25, 2013

13/776362

Paul Su - Saratoga CA, US

Membrane Technology and Research, Inc. - Newark CA

B01D 61/36
C07C 1/22

585639

Disclosed herein is a methanol-to-propylene (MTP) conversion process that utilizes a membrane separation step to increase the recycle of Chydrocarbons back to the MTP reactor, thereby increasing propylene product yield and reducing raw material loss.

53155300, May 24, 1994

Aug 14, 1992

7/930489

David L. Gerhardt - Redondo Beach CA
Paul J. Su - Hacienda Heights CA
Tibor I. Lak - Huntington Beach CA
Donna M. Brakeville - Brea CA

Rockwell International Corporation - Seal Beach CA

G05D 900
G06F 1546

364510

A computer program is disclosed for specifying and solving a fluid transfer problem. Schematic manager means are provided for generating and modifying a pictorial representation of a fluid system schematic having a plurality of components. The schematic manager means Is fluid and process independent. Replicator means are provided for generating a set of simultaneous equations from the pictorial representation and for assuring that the schematic manager remains fluid and process independent. A generic run-time simulation module is provided for solving the set of simultaneous equations, thereby allowing the computer program to adapt to variations in component state and fluid state as a function of system parameters. A fluid and property database manager is invoked by the simulation module, for allowing simulation of fluid flow processes having fluid states which may be unknown at the time of model creation. The data display routine is provided for displaying program results, thereby obviating any requirement for user coding.

20170050900, Feb 23, 2017

Nov 2, 2016

15/341830

- Newark CA, US
Paul Su - Saratoga CA, US

Membrane Technology and Research, Inc. - Newark CA

C07C 7/00
F25J 3/06
C07C 7/144

A process for treating an effluent gas stream arising from a manufacturing operation that produces an olefin or an olefin derivative to recover unreacted olefin. The process involves compressing the effluent gas stream, which comprises an olefin, a paraffin, and a third gas, to produce a first compressed stream, then directing the first compressed stream to a membrane separation pretreatment step. The permeate stream withdrawn from this step is enriched in olefin and is sent to a second compressor, which produces a second compressed stream that is then cooled and condensed. The condensation step produces a liquid condensate and an uncondensed gas stream. The uncondensed gas stream undergoes a second membrane separation step to produce another olefin-enriched permeate stream, which is recirculated within the process prior to the second compression step, and an olefin-depleted residue stream, which may be purged from the process.

20170008822, Jan 12, 2017

Sep 21, 2016

15/271686

- Newark CA, US
Alvin Ng - Milpitas CA, US
Douglas Gottschlich - Redwood City CA, US
Paul Su - Saratoga CA, US
Meijuan Zhou - Delmar NY, US

Membrane Technology and Research, Inc. - Newark CA

C07C 7/00
B01D 53/00
B01D 53/22
C07C 7/144
F25J 3/02

Gas separation processes are provided for separating dehydrogenation reaction products from a raw gas stream to recover hydrocarbons, specifically olefins, such as propylene and iso-butene, as well as unreacted feedstock. The processes employ a sequence of partial condensation steps, interspersed with membrane separation steps to raise the hydrocarbon dewpoint of the uncondensed gas, thereby avoiding the use of low-temperature or cryogenic conditions.

20160075619, Mar 17, 2016

Nov 11, 2015

14/938546

Paul Su - Saratoga CA, US

MEMBRANE TECHNOLOGY AND RESEARCH, INC. - Newark CA

C07C 7/00
C07C 7/144
B01D 71/02
C07C 7/09
B01D 53/00
B01D 53/22

A process for treating an effluent gas stream arising from a manufacturing operation that produces an olefin or an olefin derivative. The process involves compressing the feed gas stream, which comprises an olefin, a paraffin, and a third gas, to produce a compressed stream, then cooling and condensing the compressed stream. The condensation step produces a liquid condensate and an uncondensed gas stream. The liquid condensate is then passed through a membrane separation step. The membrane separation of the condensate results in an olefin-enriched stream, which may be recycled for use within the manufacturing operation, and an olefin-depleted stream, which may be purged from the process.

20160075620, Mar 17, 2016

Jul 1, 2015

14/789166

Paul Su - Saratoga CA, US

Membrane Technology and Research, Inc. - Newark CA

C07C 7/144
C07C 7/09
C07C 7/00

A process for treating an effluent gas stream arising from a manufacturing operation that produces an olefin or a non-polymeric olefin derivative. The process involves cooling and condensing the effluent gas stream, which comprises an olefin, a paraffin, and a third gas, to produce a liquid condensate and an uncondensed (residual) gas stream. Both streams are then passed through membrane separation steps. The membrane separation of the uncondensed gas stream results in an olefin-enriched stream and an olefin-depleted stream. The olefin-enriched stream is recirculated within the process prior to the condensation step. The membrane separation of the condensate also results in an olefin-enriched stream, which may be recycled for use within the manufacturing operation, and an olefin-depleted stream, which may be purged from the process.

20150158795, Jun 11, 2015

Dec 6, 2013

14/099267

Nicholas P. Wynn - Redwood City CA, US
Alvin Ng - Milpitas CA, US
Douglas Gottschlich - Redwood City CA, US
Paul Su - Saratoga CA, US
Meijuan Zhou - Fremont CA, US

MEMBRANE TECHNOLOGY AND RESEARCH, INC. - Newark CA

C07C 7/00

Gas separation processes are provided for separating dehydrogenation reaction products from a raw gas stream to recover hydrocarbons, specifically olefins, such as propylene and iso-butene, as well as unreacted feedstock. The processes employ a sequence of partial condensation steps, interspersed with membrane separation steps to raise the hydrocarbon dewpoint of the uncondensed gas, thereby avoiding the use of low-temperature or cryogenic conditions.