Patents by Inventor Steven Lam
Steven Lam 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).
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Publication number: 20170174543Abstract: Cations that can precipitate from an aqueous composition to produce scaling are sequestered by adding a multi-dentate ligand to the aqueous composition. The multi-dentate ligand bonds with the cation to form a non-scaling ionic complex; and the aqueous solution with the ionic complex is used in a process that produces substantially pure water from the aqueous composition, where the cation, absent formation of the ionic complex, is subject to scaling. The pH of the aqueous composition (or a brine including components of the aqueous composition) is then reduced to release the cation from the multi-dentate ligand; and the multi-dentate ligand, after the cation is released, is then reused in a predominantly closed loop.Type: ApplicationFiled: March 2, 2017Publication date: June 22, 2017Applicant: Massachusetts Institute of TechnologyInventors: Prakash Narayan Govindan, Windsor Sung, Steven Lam, Maximus G. St. John, John H. Lienhard, Mohammed Mirhi, Anurag Bajpayee
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Publication number: 20170144906Abstract: Described herein are systems and methods for treating an aqueous input stream comprising at least one suspended and/or emulsified immiscible phase (e.g., oil, grease) and, in some cases, one or more additional contaminants, such as solubilized bicarbonate (HCO3?) ions, solubilized divalent cations (e.g., Ca2+, Mg2+), solubilized trivalent cations (e.g., Fe3+, Al3+), organic material (e.g., humic acid, fulvic acid), hydrogen sulfide (H2S), and/or suspended solids. According to certain embodiments, the aqueous feed stream is supplied to a water treatment system comprising a chemical coagulation apparatus and a suspended solids removal apparatus (e.g., a clarifier). Within the chemical coagulation apparatus, an amount of an inorganic coagulant (e.g., aluminum chlorohydrate, polyaluminum chloride), an amount of a strong base (e.g., sodium hydroxide), and an amount of a polyelectrolyte (e.g., polyacrylamide) may be added to the aqueous input stream to form a chemically-treated stream.Type: ApplicationFiled: November 30, 2016Publication date: May 25, 2017Applicant: Gradiant CorporationInventors: Jonn-Ross Andrews, Prakash Narayan Govindan, Maximus G. St. John, Steven Lam
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Publication number: 20170113947Abstract: A counter-flow simultaneous heat and mass exchange device is operated by directing flows of two fluids into a heat and mass exchange device at initial mass flow rates where ideal changes in total enthalpy rates of the two fluids are unequal. At least one of the following state variables in the fluids is measured: temperature, pressure and concentration, which together define the thermodynamic state of the two fluid streams at the points of entry to and exit from the device. The flow rates of the fluids at the points of entry and/or exit to/from the device are measured; and the mass flow rate of at least one of the two fluids is changed such that the ideal change in total enthalpy rates of the two fluids through the device are brought closer to being equal.Type: ApplicationFiled: January 9, 2017Publication date: April 27, 2017Applicant: Gradiant CorporationInventors: Prakash Narayan Govindan, Maximus G. St. John, Karim M. Chehayeb, Steven Lam
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Patent number: 9617179Abstract: Cations that can precipitate from an aqueous composition to produce scaling are sequestered by adding a multi-dentate ligand to the aqueous composition. The multi-dentate ligand bonds with the cation to form a non-scaling ionic complex; and the aqueous solution with the ionic complex is used in a process that produces substantially pure water from the aqueous composition, where the cation, absent formation of the ionic complex, is subject to scaling. The pH of the aqueous composition (or a brine including components of the aqueous composition) is then reduced to release the cation from the multi-dentate ligand; and the multi-dentate ligand, after the cation is released, is then reused in a predominantly closed loop.Type: GrantFiled: August 5, 2013Date of Patent: April 11, 2017Assignee: Massachusetts Institute of TechnologyInventors: Prakash Narayan Govindan, Windsor Sung, Steven Lam, Maximus G. St. John, John H. Lienhard, V, Mohammed Mirhi, Anurag Bajpayee
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Patent number: 9617169Abstract: Systems and methods related to desalination systems are described herein. According to some embodiments, the desalination systems are transiently operated and/or configured to facilitate transient operation. In some embodiments, a liquid stream comprising water and at least one dissolved salt is circulated through a fluidic circuit comprising a desalination system. In some embodiments, a portion of the desalination system (e.g., a humidifier) is configured to remove at least a portion of the water from the liquid stream to produce a concentrated brine stream enriched in the dissolved salt. In certain cases, the concentrated brine stream is recirculated through the fluidic circuit until the concentrated brine stream reaches a relatively high density (e.g., at least about 10 pounds per gallon) and/or a relatively high salinity (e.g., a total dissolved salt concentration of at least about 25 wt %).Type: GrantFiled: January 11, 2016Date of Patent: April 11, 2017Assignee: Gradiant CorporationInventors: Prakash Narayan Govindan, Maximus G. St. John, Steven Lam, Mark Zaloudek, Karim M. Chehayeb, Samar Shah
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Patent number: 9579590Abstract: A counter-flow simultaneous heat and mass exchange device is operated by directing flows of two fluids into a heat and mass exchange device at initial mass flow rates where ideal changes in total enthalpy rates of the two fluids are unequal. At least one of the following state variables in the fluids is measured: temperature, pressure and concentration, which together define the thermodynamic state of the two fluid streams at the points of entry to and exit from the device. The flow rates of the fluids at the points of entry and/or exit to/from the device are measured; and the mass flow rate of at least one of the two fluids is changed such that the ideal change in total enthalpy rates of the two fluids through the device are brought closer to being equal.Type: GrantFiled: December 18, 2014Date of Patent: February 28, 2017Assignee: Gradiant CorporationInventors: Prakash Narayan Govindan, Maximus G. St. John, Karim M. Chehayeb, Steven Lam
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Patent number: 9556041Abstract: Selective scaling in water treatment systems in which desalination is performed is generally described. According to certain embodiments, the location of the formation of solid scale within a water treatment system is controlled by adjusting one or more system parameters, such as the temperature and/or flow velocity of a saline stream within the water treatment system.Type: GrantFiled: November 19, 2015Date of Patent: January 31, 2017Assignee: Gradiant CorporationInventors: Prakash Narayan Govindan, Steven Lam, Maximus G. St. John, Jonn-Ross Andrews
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Publication number: 20160375375Abstract: Embodiments described herein generally relate to humidification-dehumidification desalination systems, including apparatuses that include a vessel comprising a humidification region (e.g., a bubble column humidification region) and a dehumidification region (e.g., a bubble column dehumidification region), mobile humidification-dehumidification (HDH) desalination systems (e.g., systems having a relatively low height and/or a relatively small footprint), and associated systems and methods. Certain embodiments generally relate to methods of operating, controlling, and/or cleaning desalination systems comprising a plurality of desalination units (e.g., HDH desalination units).Type: ApplicationFiled: May 20, 2016Publication date: December 29, 2016Applicant: Gradiant CorporationInventors: Prakash Narayan Govindan, Maximus G. St. John, Steven Lam
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SYSTEMS INCLUDING AN APPARATUS COMPRISING BOTH A HUMIDIFICATION REGION AND A DEHUMIDIFICATION REGION
Publication number: 20160339356Abstract: Embodiments described herein generally relate to apparatuses that include a vessel comprising a humidification region (e.g., a bubble column humidification region) and a dehumidification region (e.g., a bubble column dehumidification region), and associated systems and methods. In certain embodiments, the apparatuses are configured to include various internal features, such as vapor distribution regions and/or liquid flow control weirs and/or baffles. In some cases, the apparatuses are used in water purification systems, such as desalination systems. The water purification systems may comprise additional devices external to the apparatuses, such as one or more heat exchangers, one or more heating devices, and/or one or more cooling devices.Type: ApplicationFiled: May 21, 2015Publication date: November 24, 2016Applicant: Gradiant CorporationInventors: Prakash Narayan Govindan, Steven Lam, Maximus G. St. John -
Publication number: 20160340208Abstract: Systems and methods related to desalination systems are described herein. According to some embodiments, the desalination systems are transiently operated and/or configured to facilitate transient operation. In some embodiments, a liquid stream comprising water and at least one dissolved salt is circulated through a fluidic circuit comprising a desalination system. In some embodiments, a portion of the desalination system (e.g., a humidifier) is configured to remove at least a portion of the water from the liquid stream to produce a concentrated brine stream enriched in the dissolved salt. In certain cases, the concentrated brine stream is recirculated through the fluidic circuit until the concentrated brine stream reaches a relatively high density (e.g., at least about 10 pounds per gallon) and/or a relatively high salinity (e.g., a total dissolved salt concentration of at least about 25 wt %).Type: ApplicationFiled: January 11, 2016Publication date: November 24, 2016Applicant: Gradiant CorporationInventors: Prakash Narayan Govindan, Maximus G. St. John, Steven Lam, Mark Zaloudek, Karim M. Chehayeb, Samar Shah
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Publication number: 20160339354Abstract: Systems and methods related to desalination systems are described herein. According to some embodiments, the desalination systems are transiently operated and/or configured to facilitate transient operation. In some embodiments, a liquid stream comprising water and at least one dissolved salt is circulated through a fluidic circuit comprising a desalination system. In some embodiments, a portion of the desalination system (e.g., a humidifier) is configured to remove at least a portion of the water from the liquid stream to produce a concentrated brine stream enriched in the dissolved salt. In certain cases, the concentrated brine stream is recirculated through the fluidic circuit until the concentrated brine stream reaches a relatively high density (e.g., at least about 10 pounds per gallon) and/or a relatively high salinity (e.g., a total dissolved salt concentration of at least about 25 wt %).Type: ApplicationFiled: May 21, 2015Publication date: November 24, 2016Applicant: Gradiant CorporationInventors: Prakash Narayan Govindan, Maximus G. St. John, Steven Lam, Mark Zaloudek, Karim M. Chehayeb, Samar Shah
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Publication number: 20160339357Abstract: Embodiments described herein generally relate to apparatuses that include a vessel comprising a humidification region (e.g., a bubble column humidification region) and a dehumidification region (e.g., a bubble column dehumidification region), and associated systems and methods. In certain embodiments, the apparatuses are configured to include various internal features, such as vapor distribution regions and/or liquid flow control weirs and/or baffles. In some cases, the apparatuses are used in water purification systems, such as desalination systems. The water purification systems may comprise additional devices external to the apparatuses, such as one or more heat exchangers, one or more heating devices, and/or one or more cooling devices.Type: ApplicationFiled: May 21, 2015Publication date: November 24, 2016Applicant: Gradiant CorporationInventors: Prakash Narayan Govindan, Steven Lam, Maximus G. St. John
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Patent number: 9468864Abstract: Condensing apparatuses and their use in various heat and mass exchange systems are generally described. The condensing apparatuses, such as bubble column condensers, may employ a heat exchanger positioned external to the condensing vessel to remove heat from a bubble column condenser outlet stream to produce a heat exchanger outlet stream. In certain cases, the condensing apparatus may also include a cooling device positioned external to the vessel configured and positioned to remove heat from the heat exchanger outlet stream to produce a cooling device outlet stream. The condensing apparatus may be configured to include various internal features, such as a vapor distribution region and/or a plurality of liquid flow control weirs and/or chambers within the apparatus having an aspect ratio of at least 1.5. A condensing apparatus may be coupled with a humidifier to form part of a desalination system, in certain cases.Type: GrantFiled: March 24, 2015Date of Patent: October 18, 2016Assignee: Gradiant CorporationInventors: Prakash Narayan Govindan, Steven Lam, Maximus G. St. John
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Publication number: 20160301101Abstract: Perfluoropolyether electrolytes terminated with polar substituents such as cyclic carbonates show enhanced ionic conductivities when formulated with lithium bis(trifluoromethane)sulfonimide, making them useful as electrolytes for lithium cells.Type: ApplicationFiled: May 6, 2016Publication date: October 13, 2016Inventors: Russell Clayton Pratt, Xiao-Liang Wang, Steven Lam, Hany Basam Eitouni
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Publication number: 20160294012Abstract: Perfluoropolyether electrolytes terminated with polar substituents such as dimethylurethanes show enhanced ionic conductivities when formulated with lithium bis(trifluoromethane)sulfonimide, making them useful as electrolytes for lithium cells.Type: ApplicationFiled: May 6, 2016Publication date: October 6, 2016Inventors: Russell Clayton Pratt, Xiao-Liang Wang, Steven Lam, Hany Basam Eitouni
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Publication number: 20160244349Abstract: Water treatment systems and associated methods are generally described. Certain embodiments of the water treatment systems and methods described herein may be used to treat water comprising one or more contaminants (e.g., oil, grease, suspended solids, scale-forming ions, volatile organic material) to remove at least a portion of the one or more contaminants. In some embodiments, at least a portion of the treated water may be used directly in certain applications (e.g., oil and/or gas extraction processes). In some embodiments, at least a portion of the treated water may undergo desalination to produce substantially pure water and/or concentrated brine.Type: ApplicationFiled: February 11, 2016Publication date: August 25, 2016Applicant: Gradiant CorporationInventors: Maximus G. St. John, Steven Lam, Prakash Narayan Govindan
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Publication number: 20160228795Abstract: Water treatment systems and associated methods are generally described. Certain embodiments of the water treatment systems and methods described herein may be used to treat water comprising one or more contaminants (e.g., oil, grease, suspended solids, scale-forming ions, volatile organic material) to remove at least a portion of the one or more contaminants. In some embodiments, at least a portion of the treated water may be used directly in certain applications (e.g., oil and/or gas extraction processes). In some embodiments, at least a portion of the treated water may undergo desalination to produce substantially pure water and/or concentrated brine.Type: ApplicationFiled: May 21, 2015Publication date: August 11, 2016Applicant: Gradiant CorporationInventors: Maximus G. St. John, Steven Lam, Prakash Narayan Govindan
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Publication number: 20160229705Abstract: Water treatment systems and associated methods are generally described. Certain embodiments of the water treatment systems and methods described herein may be used to treat water comprising one or more contaminants (e.g., oil, grease, suspended solids, scale-forming ions, volatile organic material) to remove at least a portion of the one or more contaminants. In some embodiments, at least a portion of the treated water may be used directly in certain applications (e.g., oil and/or gas extraction processes). In some embodiments, at least a portion of the treated water may undergo desalination to produce substantially pure water and/or concentrated brine.Type: ApplicationFiled: May 21, 2015Publication date: August 11, 2016Applicant: Gradiant CorporationInventors: Maximus G. St. John, Steven Lam, Prakash Narayan Govindan
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Patent number: 9364771Abstract: Condensing apparatuses and their use in various heat and mass exchange systems are generally described. The condensing apparatuses, such as bubble column condensers, may employ a heat exchanger positioned external to the condensing vessel to remove heat from a bubble column condenser outlet stream to produce a heat exchanger outlet stream. In certain cases, the condensing apparatus may also include a cooling device positioned external to the vessel configured and positioned to remove heat from the heat exchanger outlet stream to produce a cooling device outlet stream. The condensing apparatus may be configured to include various internal features, such as a vapor distribution region and/or a plurality of liquid flow control weirs and/or chambers within the apparatus having an aspect ratio of at least 1.5. A condensing apparatus may be coupled with a humidifier to form part of a desalination system, in certain cases.Type: GrantFiled: May 21, 2015Date of Patent: June 14, 2016Assignee: Gradiant CorporationInventors: Prakash Narayan Govindan, Steven Lam, Maximus G. St. John
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Publication number: 20160137526Abstract: Selective scaling in water treatment systems in which desalination is performed is generally described. According to certain embodiments, the location of the formation of solid scale within a water treatment system is controlled by adjusting one or more system parameters, such as the temperature and/or flow velocity of a saline stream within the water treatment system.Type: ApplicationFiled: November 17, 2015Publication date: May 19, 2016Applicant: Gradiant CorporationInventors: Prakash Narayan Govindan, Steven Lam, Maximus G. St. John, Jonn-Ross Andrews