Patents Assigned to Hudson Technologies, Inc.
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Patent number: 10605507Abstract: An apparatus for optimizing an efficiency of a refrigeration system, comprising means for measuring a refrigeration efficiency of an operating refrigeration system; means for altering a process variable of the refrigeration system during efficiency measurement; and a processor for calculating a process variable level which achieves an optimum efficiency. The process variables may include refrigerant charge and refrigerant oil concentration in evaporator.Type: GrantFiled: August 6, 2018Date of Patent: March 31, 2020Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Douglas Schmidt
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Patent number: 10330364Abstract: A system and method for retrofitting a refrigeration system containing an HCFC refrigerant and a compatible lubricant, with an HFC refrigerant, comprising providing a transport container containing a mixture of a miscible lubricant and the HFC refrigerant, removing the HCFC refrigerant from the refrigeration system while maintaining at least a portion of a lubricant immiscible with the HFC refrigerant, and charging the refrigeration system with the mixture. The polyol ester lubricant may be present in a range exceeding about 5-15% by weight, e.g., 8%.Type: GrantFiled: June 19, 2015Date of Patent: June 25, 2019Assignee: Hudson Technologies, Inc.Inventor: Charles Harkins
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Patent number: 10094603Abstract: A system and method for retrofitting a refrigeration system containing an HCFC refrigerant and a compatible lubricant, with an HFC refrigerant, comprising providing a transport container containing a mixture of about 5-15% by weight of a miscible lubricant and the HFC refrigerant, removing the HCFC refrigerant from the refrigeration system while maintaining at least a portion of a lubricant immiscible with the HFC refrigerant, and charging the refrigeration system with the mixture.Type: GrantFiled: September 2, 2016Date of Patent: October 9, 2018Assignee: Hudson Technologies, Inc.Inventor: Charles Harkins
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Patent number: 10041713Abstract: An apparatus for optimizing an efficiency of a refrigeration system, comprising means for measuring a refrigeration efficiency of an operating refrigeration system; means for altering a process variable of the refrigeration system during efficiency measurement; and a processor for calculating a process variable level which achieves an optimum efficiency. The process variables may include refrigerant charge and refrigerant oil concentration in evaporator.Type: GrantFiled: December 28, 2015Date of Patent: August 7, 2018Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Douglas Schmidt
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Patent number: 9435575Abstract: A system and method for retrofitting a refrigeration system containing an HCFC refrigerant and a compatible lubricant, with an HFC refrigerant, comprising providing a transport container containing a mixture of a miscible lubricant and the HFC refrigerant, removing the HCFC refrigerant from the refrigeration system while maintaining at least a portion of a lubricant immiscible with the HFC refrigerant, and charging the refrigeration system with the mixture. The polyol ester lubricant may be present in a range exceeding about 5-15% by weight, e.g., 8%.Type: GrantFiled: October 7, 2015Date of Patent: September 6, 2016Assignee: Hudson Technologies, Inc.Inventor: Charles Harkins
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Patent number: 9423165Abstract: A control system for controlling a refrigeration system having an operating point, comprising: a memory configured to store a relationship of at least an evaporator efficiency, an evaporator heat load, a refrigerant amount in the evaporator, and a variable dependent on a non-volatile liquid mixed with refrigerant in the evaporator an input port configured to receive a signal corresponding to at least a measured evaporator heat load during operation; an output port configured to present an output to selectively alter an operating point of the evaporator, by altering the refrigerant amount in the evaporator and thereby changing the variable; and a processor, configured to receive the signal, access the memory; and generate the output to selectively move toward an optimum operating point. A corresponding method and refrigeration system are provided.Type: GrantFiled: June 10, 2013Date of Patent: August 23, 2016Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Riyaz Papar
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Patent number: 9222712Abstract: An apparatus for optimizing an efficiency of a refrigeration system, comprising means for measuring a refrigeration efficiency of an operating refrigeration system; means for altering a process variable of the refrigeration system during efficiency measurement; and a processor for calculating a process variable level which achieves an optimum efficiency. The process variables may include refrigerant charge and refrigerant oil concentration in evaporator.Type: GrantFiled: December 7, 2012Date of Patent: December 29, 2015Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Douglas Schmidt
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Patent number: 8695364Abstract: A system and method for recycling non-reusable refrigerant transport containers. At least one intact refrigerant transport container is received into a sealed chamber. The refrigerant transport container is punctured to release residual refrigerant, which is removed and compressed. The container is shredded and/or compacted. A refrigerant transport container deposit program is provided, comprising: encoding a deposit container prior to use; receiving the encoded spent container and releasing the imposed deposit; automatically removing residual refrigerant from the spent container; and recycling materials from the refrigerant transport container. A database storing a record relating to the encoded refrigerant transport containers may be employed for tracking.Type: GrantFiled: September 27, 2013Date of Patent: April 15, 2014Assignee: Hudson Technologies, Inc.Inventor: Kevin Zugibe
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Patent number: 8544287Abstract: A system and method for recycling non-reusable refrigerant transport containers. At least one intact refrigerant transport container is received into a sealed chamber. The refrigerant transport container is punctured to release residual refrigerant, which is removed and compressed. The container is shredded and/or compacted. A refrigerant transport container deposit program is provided, comprising: encoding a deposit container prior to use; receiving the encoded spent container and releasing the imposed deposit; automatically removing residual refrigerant from the spent container; and recycling materials from the refrigerant transport container. A database storing a record relating to the encoded refrigerant transport containers may be employed for tracking.Type: GrantFiled: June 26, 2012Date of Patent: October 1, 2013Assignee: Hudson Technologies, Inc.Inventor: Kevin Kugibe
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Patent number: 8463441Abstract: A control system for controlling a refrigeration system having an operating point, comprising: a memory configured to store a relationship of at least an evaporator efficiency, an evaporator heat load, a refrigerant amount in the evaporator, and a variable dependent on a non-volatile liquid mixed with refrigerant in the evaporator an input port configured to receive a signal corresponding to at least a measured evaporator heat load during operation; an output port configured to present an output to selectively alter an operating point of the evaporator, by altering the refrigerant amount in the evaporator and thereby changing the variable; and a processor, configured to receive the signal, access the memory; and generate the output to selectively move toward an optimum operating point. A corresponding method and refrigeration system are provided.Type: GrantFiled: October 24, 2011Date of Patent: June 11, 2013Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Riyaz Papar
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Patent number: 8327653Abstract: An apparatus for optimizing an efficiency of a refrigeration system, comprising means for measuring a refrigeration efficiency of an operating refrigeration system; means for altering a process variable of the refrigeration system during efficiency measurement; and a processor for calculating a process variable level which achieves an optimum efficiency. The process variables may include refrigerant charge and refrigerant oil concentration in evaporator.Type: GrantFiled: October 5, 2010Date of Patent: December 11, 2012Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Douglas Schmidt
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Patent number: 8205462Abstract: A system and method for recycling non-reusable refrigerant transport containers. At least one intact refrigerant transport container is received into a sealed chamber. The refrigerant transport container is punctured to release residual refrigerant, which is removed and compressed. The container is shredded and/or compacted. A refrigerant transport container deposit program is provided, comprising: encoding a deposit container prior to use; receiving the encoded spent container and releasing the imposed deposit; automatically removing residual refrigerant from the spent container; and recycling materials from the refrigerant transport container. A database storing a record relating to the encoded refrigerant transport containers may be employed for tracking.Type: GrantFiled: October 14, 2008Date of Patent: June 26, 2012Assignee: Hudson Technologies, Inc.Inventor: Kevin Zugibe
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Patent number: 8046107Abstract: A refrigeration system comprising a compressor for compressing a refrigerant, a condenser for condensing refrigerant to a liquid, an evaporator for evaporating liquid refrigerant from the condenser to a gas, an inner control loop for optimizing a supply of liquid refrigerant to the evaporator, and an outer control loop for optimizing a level of refrigerant in the evaporator, said outer control loop defining a supply rate for said inner control loop based on an optimization including measurement of evaporator performance, and said inner control loop optimizing liquid refrigerant supply based on said defined supply rate. Independent variables, such as proportion of oil in refrigerant, amount of refrigerant, contaminants, non-condensibles, scale and other deposits on heat transfer surfaces, may be estimated or measured.Type: GrantFiled: September 23, 2009Date of Patent: October 25, 2011Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Riyaz Papar
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Patent number: 7599759Abstract: A refrigeration system comprising a compressor for compressing a refrigerant, a condenser for condensing refrigerant to a liquid, an evaporator for evaporating liquid refrigerant from the condenser to a gas, an inner control loop for optimizing a supply of liquid refrigerant to the evaporator, and an outer control loop for optimizing a level of refrigerant in the evaporator, said outer control loop defining a supply rate for said inner control loop based on an optimization including measurement of evaporator performance, and said inner control loop optimizing liquid refrigerant supply based on said defined supply rate. Independent variables, such as proportion of oil in refrigerant, amount of refrigerant, contaminants, non-condensibles, scale and other deposits on heat transfer surfaces, may be estimated or measured.Type: GrantFiled: December 9, 2003Date of Patent: October 6, 2009Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Riyaz Papar
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Patent number: 7533536Abstract: An apparatus for optimizing an efficiency of a refrigeration system, comprising means for measuring a refrigeration efficiency of an operating refrigeration system; means for altering a process variable of the refrigeration system during efficiency measurement; and a processor for calculating a process variable level which achieves an optimum efficiency. The process variables may include refrigerant charge and refrigerant oil concentration in evaporator.Type: GrantFiled: August 8, 2006Date of Patent: May 19, 2009Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Douglas Schmidt
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Patent number: 6357240Abstract: A method for flushing contaminants from a contaminated refrigeration system, comprising flushing a continuously purified volatile composition through a portion of a refrigeration system during a first phase; flushing an aqueous solvent through the portion of the refrigeration system during a second phase; and drying the portion of the refrigeration system to remove residual water. The source of purified volatile composition preferably employs a recycling or in-line purification system, for example, a fractional distillation system. The preferred volatile composition is R-22.Type: GrantFiled: August 12, 1999Date of Patent: March 19, 2002Assignee: Hudson Technologies, Inc.Inventors: Kevin Zugibe, Arthur R. Mika
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Patent number: 6290778Abstract: A method for cleaning a tube-in-shell heat exchanger, comprising removably inserting an ultrasonic transducer within the shell of the heat exchanger; providing a liquid medium within the shell of the heat exchanger; exciting the ultrasonic transducer to produce cavitational acoustic waves within the liquid medium; and repositioning the ultrasonic transducer with respect to a tube within the heat exchanger. The system preferably includes a control for controlling transducer excitation and transducer position. Closed loop control may be effected with fluid medium contamination sensor(s) and/or position sensor(s).Type: GrantFiled: August 12, 1999Date of Patent: September 18, 2001Assignee: Hudson Technologies, Inc.Inventor: Kevin Zugibe
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Patent number: 6164080Abstract: A method for purging contaminants from a contaminated refrigeration system, comprising providing a source of recycled volatile composition to a refrigerant system; passing the recycled volatile composition through the refrigerant system; receiving the volatile composition from the refrigerant system; and recycling the volatile composition by separation of contaminants therefrom.Type: GrantFiled: August 12, 1999Date of Patent: December 26, 2000Assignee: Hudson Technologies, Inc.Inventors: Arthur R. Mika, Charles F. Harkins, Jr.
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Patent number: 6141977Abstract: A self-contained refrigerant recovery device for recovering refrigerant from a transfer vessel into a storage reservoir, comprising, in a single enclosure a qualitative analyzer for determining a quality of a refrigerant in the transfer vessel; a quantitative analyzer for determining a quantity of refrigerant in the transfer vessel; a refrigerant extractor for withdrawing refrigerant from the transfer vessel into a storage reservoir; an accounting system for determining a value of refrigerant in the transfer vessel based on the qualitative analysis and the quantitative analysis; and an output for outputting said value. The system preferably has a plurality of storage reservoirs, the refrigerant being withdrawn from the transfer vessel into one of said plurality of storage reservoirs based on said qualitative analysis. In operation, a single connection between the transfer vessel and the recovery device is sufficient.Type: GrantFiled: September 3, 1998Date of Patent: November 7, 2000Assignee: Hudson Technologies, Inc.Inventor: Kevin Zugibe
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Patent number: 5802859Abstract: A self-contained refrigerant recovery device for recovering refrigerant from a transfer vessel into a storage reservoir, comprising, in a single enclosure a qualitative analyzer for determining a quality of a refrigerant in the transfer vessel; a quantitative analyzer for determining a quantity of refrigerant in the transfer vessel; a refrigerant extractor for withdrawing refrigerant from the transfer vessel into a storage reservoir; an accounting system for determining a value of refrigerant in the transfer vessel based on the qualitative analysis and the quantitative analysis; and an output for outputting said value. The system preferably has a plurality of storage reservoirs, the refrigerant being withdrawn from the transfer vessel into one of said plurality of storage reservoirs based on said qualitative analysis. In operation, a single connection between the transfer vessel and the recovery device is sufficient.Type: GrantFiled: January 16, 1997Date of Patent: September 8, 1998Assignee: Hudson Technologies, Inc.Inventor: Kevin Zugibe