Patents by Inventor Shwetha Ramkumar
Shwetha Ramkumar has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20230347281Abstract: The present disclosure relates to methods and systems for sweetening natural gas may utilize a water wash to achieve a reduction in raw natural gas stream contaminants (e.g., particulate contaminants and/or chemical contaminants) and/or to recover solvent used for removing H2S and CO2 from the natural gas. For example, a method may include contacting a first natural gas stream with a first water stream in a co-current contacting system to produce a second natural gas stream and a second water stream, wherein the first natural gas stream comprises natural gas, an acid gas, and a contaminate, and wherein a concentration of the contaminate in the second natural gas stream is less than a concentration of the contaminate in the first natural gas stream; and removing at least a portion of the acid gas from the second natural gas stream.Type: ApplicationFiled: April 13, 2023Publication date: November 2, 2023Applicant: ExxonMobil Technology and Engineering CompanyInventors: Priya SANTHANAM, P. Scott NORTHROP, Shwetha RAMKUMAR, John Timothy CULLINANE, Sean T. PHILBROOK
-
Patent number: 11260342Abstract: A fractionation system for removing heavy hydrocarbons in a gas stream. A stripping section receives a predominantly liquid phase of the feed gas stream. A co-current contacting system receives a predominantly vapor phase of the feed gas stream. The co-current contacting system includes a compact contacting bundle disposed within a vessel and including a plurality of substantially parallel contacting units, each of the plurality of contacting units having a droplet generator, a mass transfer section, and a separation system. Each droplet generator generates droplets from a liquid disperses the droplets into a gas stream. Each mass transfer section provides a mixed, two-phase flow having a vapor phase and a liquid phase. Each separation system separates the vapor phase from the liquid phase such that the concentration of heavy hydrocarbons in the vapor phase is lower than in the liquid phase.Type: GrantFiled: April 10, 2018Date of Patent: March 1, 2022Assignee: ExxonMobil Upstream Research CompanyInventors: Norman K. Yeh, Edward J. Grave, Shwetha Ramkumar, Juan C. Juarez
-
Patent number: 11247168Abstract: A co-axial co-current contactor (CA-CCC) is described herein. The CA-CCC includes an outer annular support ring and an inner annular support ring configured to maintain the CA-CCC within an outer pipe and an inner pipe, respectively. The CA-CCC includes rich liquid flow channels located between the outer annular support ring and the inner annular support ring that are configured to allow a rich liquid stream to flow through the CA-CCC, and a central gas entry cone and gas flow channels configured to allow a gas stream to flow through the CA-CCC. The CA-CCC further includes radial blades configured to secure the central gas entry cone to the inner annular support ring and allow a lean liquid stream to flow into the central gas entry cone and the gas flow channels. The CA-CCC provides for efficient incorporation of liquid droplets formed from the lean liquid stream into the gas stream.Type: GrantFiled: July 31, 2020Date of Patent: February 15, 2022Assignee: ExxonMobil Upstream Research CompanyInventors: Sean T. Philbrook, Shwetha Ramkumar
-
Patent number: 11000795Abstract: A fractionation system for removing heavy hydrocarbons in a gas stream. A stripping section receives a predominantly liquid phase of a feed gas stream. First and second co-current contacting systems are located in-line within a pipe. The first co-current contacting system receives a predominantly vapor phase of the feed gas stream. Each co-current contacting system includes a co-current contactor and a separation system. Each co-current contactor includes a droplet generator and a mass transfer section. The droplet generator generates droplets from a liquid and disperses the droplets into a gas stream. The mass transfer section provides a mixed, two-phase flow having a vapor phase and a liquid phase. The separation system separates the vapor phase from the liquid phase.Type: GrantFiled: April 27, 2018Date of Patent: May 11, 2021Assignee: ExxonMobil Upstream Research CompanyInventors: Norman K. Yeh, Edward J. Grave, Shwetha Ramkumar, Juan C. Juarez
-
Patent number: 11000797Abstract: A method of separating impurities from a natural gas stream. The natural gas stream is cooled through heat exchange with one or more process streams to produce a chilled gas stream, which is contacted with a lean solvent stream in a contactor to separate hydrogen sulfide (H2S) from the chilled gas stream, thereby producing a rich solvent stream and a partially-treated gas stream. Carbon dioxide (CO2) and H2S are separated from the partially-treated gas stream in a membrane separation system, thereby creating a fully-treated gas stream and a permeate gas stream, the permeate gas stream being comprised primarily of H2S and CO2, and the fully-treated gas stream being comprised primarily of natural gas. The fully-treated gas stream and the permeate gas stream are at a lower temperature than the partially-treated gas stream. The fully-treated gas stream and the permeate gas stream comprise the one or more process streams.Type: GrantFiled: August 13, 2018Date of Patent: May 11, 2021Assignee: ExxonMobil Upstream Research CompanyInventors: David W. Maher, Shwetha Ramkumar, P. Scott Northrop, Robert D. Denton
-
Publication number: 20210069638Abstract: A co-axial co-current contactor (CA-CCC) is described herein. The CA-CCC includes an outer annular support ring and an inner annular support ring configured to maintain the CA-CCC within an outer pipe and an inner pipe, respectively. The CA-CCC includes rich liquid flow channels located between the outer annular support ring and the inner annular support ring that are configured to allow a rich liquid stream to flow through the CA-CCC, and a central gas entry cone and gas flow channels configured to allow a gas stream to flow through the CA-CCC. The CA-CCC further includes radial blades configured to secure the central gas entry cone to the inner annular support ring and allow a lean liquid stream to flow into the central gas entry cone and the gas flow channels. The CA-CCC provides for efficient incorporation of liquid droplets formed from the lean liquid stream into the gas stream.Type: ApplicationFiled: July 31, 2020Publication date: March 11, 2021Inventors: Sean T. PHILBROOK, Shwetha RAMKUMAR
-
Patent number: 10876052Abstract: A hydrogen sulfide (H2S) scavenging system for removing H2S, mercaptans, and/or other sulfur-containing compounds from a natural gas stream. A co-current contacting system is located in-line within a pipe and receives the natural gas stream and a liquid scavenger stream. The co-current contacting system includes a co-current contactor including a droplet generator and a mass transfer section. The droplet generator generates droplets from the liquid scavenger stream and disperses the droplets into the natural gas stream. The mass transfer section provides a mixed, two-phase flow having a vapor phase and a liquid phase. The liquid phase includes the liquid scavenger stream with H2S, mercaptans, and/or other sulfur-containing compounds absorbed from the natural gas stream, and the vapor phase includes the natural gas stream. A separation system separates the vapor phase from the liquid phase.Type: GrantFiled: April 11, 2018Date of Patent: December 29, 2020Assignee: ExxonMobil Upstream Research CompanyInventors: Shwetha Ramkumar, Donald P. Shatto, P. Scott Northrop, Sean T. Philbrook
-
Patent number: 10322365Abstract: Provided are apparatus and systems for performing a swing adsorption process. This swing adsorption process may involve passing streams through adsorbent bed units to remove contaminants, such as water, from the stream. As part of the process, the adsorbent bed unit may include additional space for the valves on the head of the adsorbent bed unit.Type: GrantFiled: October 4, 2016Date of Patent: June 18, 2019Assignee: ExxonMobil Upstream Reseach CompanyInventors: Tracy A. Fowler, Shwetha Ramkumar, Jeffrey W. Frederick, Ananda K. Nagavarapu, Sebastian Chialvo, Robert F. Tammera, John W. Fulton
-
Patent number: 10293298Abstract: Provided are apparatus and systems for performing a swing adsorption process. This swing adsorption process may involve passing streams through adsorbent bed units to treat the pipeline quality natural gas to form a stream that complies with liquefied natural gas (LNG) specifications. The process may involve a combined TSA and PSA process, which is utilized to remove contaminants from the feed stream.Type: GrantFiled: August 10, 2016Date of Patent: May 21, 2019Assignee: ExxonMobil Upstream Research CompanyInventors: Bennett D. Marshall, Bruce T. Kelley, Ananda K. Nagavarapu, Harry W. Deckman, Robert A. Johnson, Shwetha Ramkumar, Russell H. Oelfke
-
Publication number: 20190054416Abstract: A method of separating impurities from a natural gas stream. The natural gas stream is cooled through heat exchange with one or more process streams to produce a chilled gas stream, which is contacted with a lean solvent stream in a contactor to separate hydrogen sulfide (H2S) from the chilled gas stream, thereby producing a rich solvent stream and a partially-treated gas stream. Carbon dioxide (CO2) and H2S are separated from the partially-treated gas stream in a membrane separation system, thereby creating a fully-treated gas stream and a permeate gas stream, the permeate gas stream being comprised primarily of H2S and CO2, and the fully-treated gas stream being comprised primarily of natural gas. The fully-treated gas stream and the permeate gas stream are at a lower temperature than the partially-treated gas stream. The fully-treated gas stream and the permeate gas stream comprise the one or more process streams.Type: ApplicationFiled: August 13, 2018Publication date: February 21, 2019Inventors: David W. Maher, Shwetha Ramkumar, P. Scott Northrop, Robert D. Denton
-
Publication number: 20190054415Abstract: A method of separating impurities from a natural gas stream. CO2 and H2S are separated from the natural gas stream in a membrane separation system, thereby creating a partially-treated gas stream and a permeate gas stream, both of which are at a lower temperature than the natural gas stream. The partially-treated gas stream is contacted with a first lean solvent stream in a first contactor to separate H2S from the partially-treated gas stream, thereby producing a first rich solvent stream and a fully-treated gas stream. The permeate gas stream is contacted with a second lean solvent stream in a second contactor to separate H2S therefrom to produce a second rich solvent stream and a CO2 gas stream. H2S and CO2 are removed from the first and second rich solvent streams, thereby producing the first and second lean solvent streams.Type: ApplicationFiled: August 13, 2018Publication date: February 21, 2019Inventors: David W. Maher, Shwetha Ramkumar, P. Scott Northrop, Robert D. Denton
-
Publication number: 20180361307Abstract: A fractionation system for removing heavy hydrocarbons in a gas stream. A stripping section receives a predominantly liquid phase of a feed gas stream. First and second co-current contacting systems are located in-line within a pipe. The first co-current contacting system receives a predominantly vapor phase of the feed gas stream. Each co-current contacting system includes a co-current contactor and a separation system. Each co-current contactor includes a droplet generator and a mass transfer section. The droplet generator generates droplets from a liquid and disperses the droplets into a gas stream. The mass transfer section provides a mixed, two-phase flow having a vapor phase and a liquid phase. The separation system separates the vapor phase from the liquid phase.Type: ApplicationFiled: April 27, 2018Publication date: December 20, 2018Inventors: Norman K. Yeh, Edward J. Grave, Shwetha Ramkumar, Juan C. Juarez
-
Publication number: 20180361309Abstract: A fractionation system for removing heavy hydrocarbons in a gas stream. A stripping section receives a predominantly liquid phase of the feed gas stream. A co-current contacting system receives a predominantly vapor phase of the feed gas stream. The co-current contacting system includes a compact contacting bundle disposed within a vessel and including a plurality of substantially parallel contacting units, each of the plurality of contacting units having a droplet generator, a mass transfer section, and a separation system. Each droplet generator generates droplets from a liquid disperses the droplets into a gas stream. Each mass transfer section provides a mixed, two-phase flow having a vapor phase and a liquid phase. Each separation system separates the vapor phase from the liquid phase such that the concentration of heavy hydrocarbons in the vapor phase is lower than in the liquid phase.Type: ApplicationFiled: April 10, 2018Publication date: December 20, 2018Inventors: Norman K. Yeh, Edward J. Grave, Shwetha Ramkumar, Juan C. Juarez
-
Publication number: 20180362858Abstract: A hydrogen sulfide (H2S) scavenging system for removing H2S, mercaptans, and/or other sulfur-containing compounds from a natural gas stream. A co-current contacting system is located in-line within a pipe and receives the natural gas stream and a liquid scavenger stream. The co-current contacting system includes a co-current contactor including a droplet generator and a mass transfer section. The droplet generator generates droplets from the liquid scavenger stream and disperses the droplets into the natural gas stream. The mass transfer section provides a mixed, two-phase flow having a vapor phase and a liquid phase. The liquid phase includes the liquid scavenger stream with H2S, mercaptans, and/or other sulfur-containing compounds absorbed from the natural gas stream, and the vapor phase includes the natural gas stream. A separation system separates the vapor phase from the liquid phase.Type: ApplicationFiled: April 11, 2018Publication date: December 20, 2018Inventors: Shwetha Ramkumar, Donald P. Shatto, P. Scott Northrop, Sean T. Philbrook
-
Patent number: 10124286Abstract: Provided are apparatus and systems for performing a swing adsorption process. This swing adsorption process may involve passing streams through adsorbent bed units to remove contaminants, such as water, from the stream. As part of the process, the adsorbent bed unit is purged with a purge stream that is provided from the overhead of the demethanizer. The configuration integrates a PPSA dehydration system with a cryogenic recovery system.Type: GrantFiled: August 10, 2016Date of Patent: November 13, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: Patrick D. J. McMahon, Robert A. Johnson, Shwetha Ramkumar, Russell H. Oelfke, Eugene R. Thomas, Ananda K. Nagavarapu, William Barnes
-
Patent number: 10080991Abstract: Provided are apparatus and systems for performing a swing adsorption process. This swing adsorption process may involve passing streams through adsorbent bed units to remove contaminants, such as water, from the stream. As part of the process, the adsorbent bed unit is purged with a purge stream that is provided at a temperature less than 450° F. The de-contaminated stream may be used with a liquefied natural gas (LNG) plant or other subsequent process requiring a de-contaminated stream. The swing adsorption process may involve a combined TSA and PSA process, which is utilized to remove contaminants from the feed stream.Type: GrantFiled: August 10, 2016Date of Patent: September 25, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: Robert A. Johnson, Harry W. Deckman, Bruce T. Kelley, Russell H. Oelfke, Shwetha Ramkumar
-
Patent number: 10040022Abstract: Provided are apparatus and systems for performing a swing adsorption process. This swing adsorption process may involve passing streams through adsorbent bed units to remove contaminants, such as water, from the stream. As part of the process, the adsorbent bed unit may include additional space for the valves of the adsorbent bed unit.Type: GrantFiled: October 4, 2016Date of Patent: August 7, 2018Assignee: ExxonMobil Upstream Research CompanyInventors: Tracy A. Fowler, Shwetha Ramkumar, Jeffrey W. Frederick, Ananda K. Nagavarapu, Sebastian Chialvo, Robert F. Tammera, John W. Fulton
-
Publication number: 20170239612Abstract: A method of removing impurities from a natural gas stream. A selective solvent is provided that absorbs a first impurity at a first rate and a second impurity at a second rate that is slower than the first rate. The solvent is cooled to a temperature below 60° F. to provide a cooled solvent. The cooled solvent is contacted with the natural gas stream, thereby generating a rich solvent that includes the first impurity. The rich solvent is removed from the natural gas stream, wherein an amount of the first impurity remaining in the natural gas stream is below a sales gas requirement.Type: ApplicationFiled: February 17, 2017Publication date: August 24, 2017Inventors: Suhas P. Mondkar, P. Scott Northrop, Jenny P. Seagraves, Ransdall K. Smith, Shwetha Ramkumar
-
Patent number: 9675925Abstract: Provided are apparatus and systems having a lessened pulsation through the use of a pulse flow control mechanism. In performing a cyclical swing adsorption process, various streams are passed through adsorbent bed units during various steps in the swing adsorption process. The pulse flow control mechanism is utilized within a manifold of one of the streams to lessen pulsation within the manifold that results from performing the various steps.Type: GrantFiled: July 2, 2015Date of Patent: June 13, 2017Assignee: ExxonMobil Upstream Research CompanyInventors: Shwetha Ramkumar, Robert A. Johnson, Eduardo Mon, John W. Fulton
-
Publication number: 20170145803Abstract: Systems and methods for dehydrating a natural gas stream are provided herein. The system includes a lean solvent feed system, including a line from a topsides facility, wherein the line is configured to divide a lean solvent stream to feed lean solvent to each of a number of co-current contacting systems in parallel. The co-current contacting systems are placed in series along a wet natural gas stream, wherein each of the co-current contacting systems is configured to contact the lean solvent stream with the wet natural gas stream to adsorb at least a portion of the water from the wet natural gas stream to form a dry natural gas stream. A rich solvent return system includes a line to combine rich solvent from each of the plurality of co-current contacting systems and return a rich solvent stream to the topsides facility.Type: ApplicationFiled: September 12, 2016Publication date: May 25, 2017Inventors: Norman K. Yeh, J. Tim Cullinane, Tracy A. Fowler, Shwetha Ramkumar, Donald P. Shatto