Volatile organic compound recovery system and method
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C12G-001/00
C12P-007/06
C12M-001/36
C12M-001/107
출원번호
US-0476231
(2009-06-01)
등록번호
US-8956671
(2015-02-17)
발명자
/ 주소
Norkin, Marci
Colome, Steven D.
출원인 / 주소
EcoPAS LLC
대리인 / 주소
Walter, Wallace G.
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
The present invention provides for passive VOC recovery in the fermentation process that does not affect or minimally affects the conditions within the fermentor vessel and does not affect or minimally affects the conditions within the headspace of the fermentor vessel itself while using the product
The present invention provides for passive VOC recovery in the fermentation process that does not affect or minimally affects the conditions within the fermentor vessel and does not affect or minimally affects the conditions within the headspace of the fermentor vessel itself while using the production of CO2 emitted during the fermenting process as the source of driving energy to move a portion of the gaseous/vaporous material in the headspace of the fermentor through an appropriately sized conduit to a chilled surface condensing device to condense the VOCs (principally ethanol) for recovery and to exhaust the CO2 to the atmosphere or to recover the CO2 for other uses. The conduit from the headspace of the fermentor to the condenser is sized to provide a flow restriction in a selected range such that the headspace equilibria are not affected while allowing a portion of the gaseous/vaporous material in the headspace to move through the conduit in response to the generation of the CO2 during the fermentation process.
대표청구항▼
1. A process for the recovery of volatile organic compounds present in the headspace of a batch-type fermentation vessel as a distilled alcoholic liquid condensate in which a starting material in the fermentation vessel is subject to a yeast-based metabolic processing cycle to yield a fermented beve
1. A process for the recovery of volatile organic compounds present in the headspace of a batch-type fermentation vessel as a distilled alcoholic liquid condensate in which a starting material in the fermentation vessel is subject to a yeast-based metabolic processing cycle to yield a fermented beverage where quantities of CO2 and EtOH vapor are produced therein during which increasing quantities of CO2 and EtOH vapor are produced during an initial part of the processing cycle and decreasing quantities of CO2 and EtOH vapor are produced during a latter part of the processing cycle, any pressure increase or decrease within the headspace of the fermentation vessel substantially related to the increase or decrease in the quantities of the CO2 and the EtOH vapor produced therein during the yeast-based metabolic processing cycle, comprising the steps of: connecting a flow pathway between the headspace of the fermentation vessel and a controllable variable-capacity condensation device for flowing at least a portion of the CO2 and the EtOH vapor from the headspace therethrough and into the condensation device, the condensation device having a condensing capacity sufficient to condense at least 35% of the EtOH vapor passing therethrough into a liquid, the flow rate of the CO2 and the EtOH vapor from the headspace of the fermentation vessel through the vapor flow pathway being responsive to the quantity of at least the CO2 produced during the yeast-based metabolic processing cycle in the fermentation vessel, the aggregate flow restriction of the flow path and the condensation device insufficient to cause no more than about a 0.50 psi rise in the pressure within the fermentation vessel, the variable-capacity condensation device controlled by a stored-program controlled processor in response a sensor responsive to the flow rate in the flow pathway,supplying heat sufficient to raise the temperature of the major portion of the surfaces of the flow pathway in contact with the CO2 and the EtOH vapor flowing therethrough to a temperature at least four to six degrees F. greater than the temperature of the flow therein;condensing at least a portion the EtOH vapor into an alcoholic liquid condensate,increasing the condensing capacity of the condensation device in incremental steps as a function of an increasing quantity of the CO2 and the EtOH vapor produced during the yeast-based metabolic processing cycle,decreasing the condensing capacity of the condensation device in decremental steps as a function of a decreasing quantity of the CO2 and the EtOH vapor produced during the yeast-based metabolic processing cycle, andrecovering the alcoholic liquid condensate in a condensate recovery vessel. 2. The process of claim 1, wherein the starting material is selected from the group consisting of grapes, plums, cherries, peaches, apples, berries, rice, corn, potato, sugar cane juice. 3. A process for co-production of wine or wine-precursor during a yeast-based metabolic processing cycle from a starting material including a liquid derived from grapes and non-liquid grape solids contained within a batch-type fermentation vessel and a distilled alcoholic spirit from EtOH vapors present in the headspace of the fermentation vessel in which quantities of CO2 and EtOH vapor are produced therein during the yeast-based metabolic processing cycle, any variations in pressure within the headspace of the fermentation vessel substantially related to variations in the quantities of the CO2 and the EtOH vapor produced therein during the yeast-based metabolic processing cycle, comprising the steps of: connecting a flow pathway between the headspace of the fermentation vessel and a variable-capacity condensation device for flowing at least a portion of the CO2 and the EtOH vapor from the headspace therethrough and into the condensation device, the condensation device having a condensing capacity sufficient to condense at least 35% of the EtOH vapor passing therethrough into a liquid, the flow rate of the CO2 and the EtOH vapor from the headspace of the fermentation vessel through the vapor flow pathway being at least responsive to the quantity of the CO2 produced during the yeast-based metabolic processing cycle in the fermentation vessel, the aggregate flow restriction of the flow path and the condensation device insufficient to cause no more than an about a 0.50 psi rise in the pressure within the fermentation vessel, the variable-capacity condensation device controlled by a stored-program controlled processor in response a sensor responsive to the flow rate in the flow pathway,supplying heat sufficient to raise the temperature of the major portion of the surfaces of the flow pathway in contact with the CO2 and the EtOH vapor flowing therethrough to a temperature at least four to six degrees F. greater than the temperature of the flow therein; condensing at least a portion the EtOH vapor into a liquid alcoholic spirit,increasing the condensing capacity of the condensation device in incremental steps as a function of an increasing quantity of the CO2 and the EtOH vapor produced during the yeast-based metabolic process, anddecreasing the condensing capacity of the condensation device in decremental steps as a function of a decreasing quantity of the CO2 and the EtOH vapor produced during the yeast-based metabolic process, recovering the condensed EtOH vapor as a distilled alcoholic spirit, and recovering the liquid wine or wine-precursor product from the fermentation vessel.
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이 특허에 인용된 특허 (2)
Poinsard ; Elisabeth Michele ; Poinsard ; Robert Gaston, Apparatus for purifying carbon dioxide vapors of fermenting liquids.
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