公开(公告)号：US09227853B2

公开(公告)日：2016-01-05

申请号：US13641226

申请日：2011-04-19

Applicant: Pushpito Kumar Ghosh ,  Girish Rajanikant Desale ,  Bhavin Hasmukhlal Khatri ,  Rajeshkumar Naranbhai Patel ,  Sanatkumar Natavarlal Patel ,  Jayanta Kumar Pothal ,  Niitin Ganesh Borle ,  Mahesh Ramjibhai Gajjar ,  Hiteshbhai Mohanbhai Tadvi

Inventor： Pushpito Kumar Ghosh ,  Girish Rajanikant Desale ,  Bhavin Hasmukhlal Khatri ,  Rajeshkumar Naranbhai Patel ,  Sanatkumar Natavarlal Patel ,  Jayanta Kumar Pothal ,  Niitin Ganesh Borle ,  Mahesh Ramjibhai Gajjar ,  Hiteshbhai Mohanbhai Tadvi

IPC: C02F1/16 ,  B01D1/16 ,  B01D3/00 ,  F01K11/00 ,  B01D1/00 ,  B01D5/00 ,  C02F1/04 ,  C02F1/12 ,  C02F103/06

CPC classification number: C02F1/16 ,  B01D1/0058 ,  B01D3/00 ,  B01D5/0015 ,  B01D5/006 ,  C02F1/048 ,  C02F1/12 ,  C02F2103/06 ,  F01K11/00 ,  Y02A20/109 ,  Y02A20/128 ,  Y10S203/08 ,  Y10S203/17

Abstract: A desalination unit for production of potable water from sub-soil brine including in combination a trapezoidal basin, a condenser, a feed tank, a header, a heat exchanger, a flush valve, a sprinkling system, exhaust heat pipe and water collecting channel; where the exhaust heat pipe is connected to a heat source at one end and to the header at the another end, the header being coupled with the heat exchanger to provide the heat flow, and the heat exchanger being fitted at the inner portion of the trapezoidal basin to heat the sub-soil brine.

Abstract translation: 一种用于从亚土壤盐水生产饮用水的脱盐单元，包括梯形盆，冷凝器，进料罐，集管，热交换器，冲洗阀，喷淋系统，排气热管和集水通道的组合; 其中排气热管在一端连接到热源并在另一端连接到集管，集管与热交换器连接以提供热流，并且热交换器装配在梯形的内部 盆地加热亚土壤盐水。

公开(公告)号：US20150376030A1

公开(公告)日：2015-12-31

申请号：US14848577

申请日：2015-09-09

Applicant: Marvin W. Pierre

Inventor： Marvin W. Pierre

IPC: C02F1/06 ,  B01D3/00 ,  F04B9/06 ,  B01D5/00 ,  C01B5/00 ,  B01D1/14 ,  B01D3/34

CPC classification number: C02F1/06 ,  B01D1/14 ,  B01D1/28 ,  B01D1/2881 ,  B01D1/2887 ,  B01D1/289 ,  B01D3/007 ,  B01D3/06 ,  B01D3/346 ,  B01D5/0039 ,  B01D5/006 ,  C01B5/00 ,  C02F1/008 ,  C02F1/048 ,  C02F2103/08 ,  C02F2209/006 ,  C02F2209/02 ,  C02F2209/03 ,  C02F2209/40 ,  F04B9/06 ,  F04B15/00 ,  Y02A20/128 ,  Y02P70/34 ,  Y02W10/37 ,  Y10S203/08 ,  Y10S203/17

Abstract: A system configured according to principles of the disclosure and process performed according to principles of the disclosure exploit a phase change cycle associated with cavitation on the suction side of (or inside) a pump to separate salt and/or impurities from water with exceptional efficiency. The exploitation involves enhancing the well-known process of cavitation by providing a large container in which the phase changes can occur safely, creating initial vapor inside the large container to start and perpetuate the process, using atmospheric pressure to drive water or recycled water into (or downstream of) the large container to force vapor compression and condensation inside the large container, and then providing a heat exchanger inside the large container to transfer heat released by condensation and vapor compression from its freshwater side to its vaporization side. A specialized pump configured to handle very low pressure conditions on its suction side more effectively and efficiently than other pumps may be used. The system and process may produce freshwater at about 0.01 gpm to about 1,080 gpm, or more.

Abstract translation: 根据本公开的原理构造的系统和根据本公开的原理执行的过程利用与泵的（或内部）的吸入侧上的气蚀相关联的相变循环，以以特别的效率将盐和/或杂质与水分离。 开采涉及通过提供大型容器来提高众所周知的空化过程，其中相变可以安全地发生，在大容器内部产生初始蒸汽以开始和延续该过程，使用大气压力将水或循环水驱入（ 或下游），以在大容器内强制蒸汽压缩和冷凝，然后在大容器内部设置热交换器，以将通过冷凝和蒸气压缩释放的热量从其淡水侧转移到其蒸发侧。 可以使用专门的泵，其被配置为在其吸力侧处理非常低的压力条件比其它泵更有效和有效。 该系统和方法可以产生约0.01gpm至约1080gpm或更多的淡水。

公开(公告)号：US09211482B2

公开(公告)日：2015-12-15

申请号：US13214114

申请日：2011-08-19

Applicant: Joseph W. Kaminski ,  Charles J. Borg ,  Dariush Golpira

Inventor： Joseph W. Kaminski ,  Charles J. Borg ,  Dariush Golpira

IPC: B01D1/28 ,  B01D3/02 ,  C02F1/04 ,  F28D15/00 ,  F28D21/00 ,  B01D5/00 ,  C02F1/06 ,  C02F1/18

CPC classification number: C02F1/04 ,  B01D1/28 ,  B01D1/2887 ,  B01D1/289 ,  B01D3/007 ,  B01D3/02 ,  B01D5/0039 ,  B01D5/006 ,  C02F1/041 ,  C02F1/06 ,  C02F1/18 ,  C02F2303/10 ,  F28D21/0001 ,  Y02W10/37 ,  Y10S203/08

Abstract: A method and apparatus for liquid purification using regenerating heat exchange are disclosed. An apparatus, in one embodiment, includes a liquid receptacle, a heat exchanger, a heating mechanism, a compressor, and a condenser. While the liquid receptacle is able to receive a stream of liquid such as water, a heat exchanger pushes the liquid through the heat exchanger to increase temperature of the liquid. The heating mechanism is capable of facilitating phase transition of the liquid from liquid to vapor. The compressor is operable to guide the vapor and the condenser is configured to condense the vapor into liquid or purified liquid.

Abstract translation: 公开了一种使用再生热交换器进行液体净化的方法和装置。 在一个实施例中，装置包括液体容器，热交换器，加热机构，压缩机和冷凝器。 当液体容器能够接收诸如水的液体流时，热交换器将液体推动通过热交换器以增加液体的温度。 加热机构能够促进液体从液体向蒸气的相变。 压缩机可操作以引导蒸气，并且冷凝器被配置为将蒸气冷凝成液体或纯化液体。

公开(公告)号：US09162158B2

公开(公告)日：2015-10-20

申请号：US13049033

申请日：2011-03-16

Applicant: Mazen A. Ba-abbad

Inventor： Mazen A. Ba-abbad

IPC: B01D3/04 ,  F28B1/06 ,  B01D1/00 ,  B01D5/00 ,  C02F1/14

CPC classification number: B01D1/0035 ,  B01D1/0058 ,  B01D3/02 ,  B01D3/04 ,  B01D5/0039 ,  B01D5/006 ,  C02F1/14 ,  F02G2260/00 ,  F22B1/18 ,  F28B1/06 ,  Y02A20/212 ,  Y02W10/37 ,  Y10S203/08 ,  Y10S203/90

Abstract: The invention provides a method and apparatus for purifying water. The apparatus includes a water still for receiving water and a hot air maintained in a heat-exchanging relationship to obtain a hot water and a cold air. The apparatus also includes one or more water purification units configured to receive the hot water from the water still in which the hot water is further heated using thermal energy received from one or more thermal energy sources to obtain steam and waste matter. A water purification unit of the one or more water purification units includes a waste matter remover for removing the waste matter from the water purification unit. The water still includes a heat-exchanging unit configured to receive the steam from the one or more water purification units. The steam received at the heat-exchanging unit is condensed to obtain purified water within the heat-exchanging unit using the cold air.

Abstract translation: 本发明提供一种净化水的方法和装置。 该装置包括仍然用于接收水的水和保持热交换关系的热空气以获得热水和冷空气。 该设备还包括一个或多个水净化单元，其被配置为从仍然使用从一个或多个热能源接收的热能进一步加热热水的水接收热水以获得蒸汽和废物。 一个或多个水净化单元的水净化单元包括用于从水净化单元去除废物的废物去除器。 水还包括被配置为从一个或多个水净化单元接收蒸汽的热交换单元。 在热交换单元处接收的蒸汽被冷凝，以使用冷空气在热交换单元内获得净化水。

公开(公告)号：US08993825B2

公开(公告)日：2015-03-31

申请号：US14283246

申请日：2014-05-21

Applicant: UOP LLC

Inventor： Gregory R. Werba ,  Jason T. Corradi ,  Xin X. Zhu ,  David W. Ablin ,  Saadet Ulas Acikgoz ,  Phillip F. Daly

IPC: C07C7/04 ,  C07C7/12 ,  C07C15/08 ,  B01D3/14 ,  C10G7/00

CPC classification number: C07C7/12 ,  B01D3/143 ,  C07C7/04 ,  C10G7/00 ,  C10G2300/1096 ,  C10G2400/30 ,  Y10S203/08 ,  Y10S585/91 ,  Y10S585/914

Abstract: An aromatics complex producing one or more xylene isomers offers a large number of opportunities to conserve energy by heat exchange within the complex. One previously unrecognized opportunity is through providing two parallel distillation columns operating at different pressures to separate C8 aromatics from C9+ aromatics. The parallel columns offer additional opportunities to conserve energy within the complex through heat exchange in associated xylene recovery facilities.

Abstract translation: 产生一种或多种二甲苯异构体的芳族化合物通过复合物内的热交换提供了大量的节能能量的机会。 一个以前未被认识的机会是通过提供在不同压力下操作的两个平行蒸馏塔来分离C8芳族化合物与C9 +芳族化合物。 平行柱提供了额外的机会，通过相关的二甲苯回收设备中的热交换来节省复合物内的能量。

公开(公告)号：US20140197023A1

公开(公告)日：2014-07-17

申请号：US13974579

申请日：2013-08-23

Applicant: David F. Bednarek ,  Jason A. Demers ,  Timothy P. Duggan ,  James L. Jackson ,  Scott A. Leonard ,  David W. McGill

Inventor： David F. Bednarek ,  Jason A. Demers ,  Timothy P. Duggan ,  James L. Jackson ,  Scott A. Leonard ,  David W. McGill

IPC: B01D3/00

CPC classification number: B01D1/2887 ,  B01D1/221 ,  B01D1/28 ,  B01D1/289 ,  B01D1/2893 ,  B01D3/00 ,  B01D3/007 ,  B01D3/42 ,  B01D5/0003 ,  B01D5/0015 ,  B01D5/0039 ,  B01D5/006 ,  B01D29/01 ,  B01D29/52 ,  B01D29/66 ,  B01D29/96 ,  B01D35/12 ,  B01D45/08 ,  C02F1/041 ,  C02F1/048 ,  C02F1/16 ,  F04C19/002 ,  F04C19/004 ,  F04C19/008 ,  F04C2270/86 ,  F28D9/005 ,  Y10S203/08 ,  Y10S203/21 ,  Y10T137/7764 ,  Y10T137/7848 ,  Y10T137/7903

Abstract: Embodiments of the invention are directed toward a novel pressurized vapor cycle for distilling liquids. In some embodiments of the invention, a liquid purification system is revealed, including the elements of an input for receiving untreated liquid, a vaporizer coupled to the input for transforming the liquid to vapor, a head chamber for collecting the vapor, a vapor pump with an internal drive shaft and an eccentric rotor with a rotatable housing for compressing vapor, and a condenser in communication with the vapor pump for transforming the compressed vapor into a distilled product. Other embodiments of the invention are directed toward heat management, and other process enhancements for making the system especially efficient.

公开(公告)号：US20140190816A1

公开(公告)日：2014-07-10

申请号：US13964565

申请日：2013-08-12

Applicant: David F. Bednarek ,  Jason A. Demers ,  Timothy P. Duggan ,  James L. Jackson ,  Scott A. Leonard ,  David W. McGill ,  Kingston Owens

Inventor： David F. Bednarek ,  Jason A. Demers ,  Timothy P. Duggan ,  James L. Jackson ,  Scott A. Leonard ,  David W. McGill ,  Kingston Owens

IPC: C02F1/04

CPC classification number: B01D1/2887 ,  B01D1/221 ,  B01D1/28 ,  B01D1/289 ,  B01D1/2893 ,  B01D3/00 ,  B01D3/007 ,  B01D3/42 ,  B01D5/0003 ,  B01D5/0015 ,  B01D5/0039 ,  B01D5/006 ,  B01D29/01 ,  B01D29/52 ,  B01D29/66 ,  B01D29/96 ,  B01D35/12 ,  B01D45/08 ,  C02F1/041 ,  C02F1/048 ,  C02F1/16 ,  F04C19/002 ,  F04C19/004 ,  F04C19/008 ,  F04C2270/86 ,  F28D9/005 ,  Y10S203/08 ,  Y10S203/21 ,  Y10T137/7764 ,  Y10T137/7848 ,  Y10T137/7903

Abstract: Embodiments of the invention are directed toward a novel pressurized vapor cycle for distilling liquids. In some embodiments of the invention, a liquid purification system is revealed, including the elements of an input for receiving untreated liquid, a vaporizer coupled to the input for transforming the liquid to vapor, a head chamber for collecting the vapor, a vapor pump with an internal drive shaft and an eccentric rotor with a rotatable housing for compressing vapor, and a condenser in communication with the vapor pump for transforming the compressed vapor into a distilled product. Other embodiments of the invention are directed toward heat management, and other process enhancements for making the system especially efficient.

Abstract translation: 本发明的实施例涉及一种用于蒸馏液体的新型加压蒸气循环。 在本发明的一些实施例中，揭示了一种液体净化系统，包括用于接收未处理液体的输入元件，耦合到输入端的用于将液体转化为蒸气的蒸发器，用于收集蒸汽的头部腔室，具有 内部驱动轴和具有用于压缩蒸气的可旋转壳体的偏心转子，以及与蒸气泵连通的冷凝器，用于将压缩蒸汽转化成蒸馏产物。 本发明的其它实施例涉及热管理和用于使系统特别有效的其它过程增强。

公开(公告)号：US08202402B2

公开(公告)日：2012-06-19

申请号：US11605340

申请日：2006-11-29

Applicant: Rahmi Oguz Capan

Inventor： Rahmi Oguz Capan

IPC: B01D3/10 ,  C02F1/04

CPC classification number: C02F1/046 ,  B01D3/103 ,  C02F1/048 ,  C02F1/14 ,  C02F1/16 ,  Y02A20/128 ,  Y02A20/129 ,  Y02A20/142 ,  Y02A20/212 ,  Y02W10/37 ,  Y10S159/16 ,  Y10S203/08

Abstract: The present invention relates to systems and related methods of water purification by distillation that will operate in a self-contained mode using a passive heat source, such as, without limitation, solar heat, air conditioning waste heat, or waste heat from the exhaust or cooling systems of an internal combustion engine, which may be used to desalinate sea water, saline water, or saline water containing contaminants. The present invention may also be used to distil sewage water, creek water, swamp water or water containing contaminants or used to cleanse or purify water contaminated with mud, chemicals, minerals, or bacteria in a local environment.

Abstract translation: 本发明涉及通过蒸馏进行水净化的系统和相关方法，该系统和相关方法将使用被动热源（例如但不限于太阳能热，空调废热，或来自排气的废热） 可用于对含有污染物的海水，盐水或盐水进行脱盐的内燃机的冷却系统。 本发明还可用于蒸馏污水，溪水，沼泽水或含有污染物的水，或用于清洁或净化在当地环境中被泥土，化学物质，矿物质或细菌污染的水。

公开(公告)号：US07981256B2

公开(公告)日：2011-07-19

申请号：US11937796

申请日：2007-11-09

Applicant: David A. Wegerer ,  Paul A. Sechrist

Inventor： David A. Wegerer ,  Paul A. Sechrist

IPC: B01D1/28 ,  B01D3/02 ,  C07C7/04 ,  F25B30/02

CPC classification number: B01D3/14 ,  C07C7/04 ,  Y10S203/04 ,  Y10S203/08 ,  Y10S203/20 ,  Y10S203/90 ,  C07C11/06

Abstract: A splitter system is disclosed that produces a product stream from a mixed stream of two materials with similar boiling points. A multi-stage heat pump compressor is used in combination with a bottoms reboiler and an intermediate reboiler resulting in reduced utility consumption. The appropriately placed intermediate reboiler enables use of a lower temperature heat source relative to the bottoms reboiler heat source. As a result, a lower pressure overhead vapor stream can be used to deliver heat to both the intermediate and bottoms reboilers, thereby conserving energy. The first stage of the multi-stage heat pump compressor delivers pressurized overhead vapor to the intermediate reboiler and the second stage provides pressurized overhead vapor to the bottoms reboiler. The disclosed design and method lessens the heat pump compressor power consumption and trim condenser duty for a propylene/propane splitter system by over 20%. A third stage of compression upstream of the overhead trim condenser may be used for purposes of making the column pressure and temperatures independent of the trim condenser temperature.

Abstract translation: 公开了一种分离器系统，其从具有相似沸点的两种材料的混合流产生产物流。 多级热泵压缩机与底部再沸器和中间再沸器组合使用，导致降低的功耗。 适当放置的中间再沸器使得能够使用相对于底​​部再沸器热源的较低温度的热源。 结果，可以使用较低压力的塔顶蒸汽流将热量传递到中间和底部再沸器，从而节省能量。 多级热泵压缩机的第一级将加压的塔顶蒸气输送到中间再沸器，第二级向底部再沸器提供加压的顶部蒸气。 所公开的设计和方法将丙烯/丙烷分配器系统的热泵压缩机功率消耗和修整电容器负载降低20％以上。 顶置式冷凝器上游的第三级压缩可用于使柱压力和温度与修整冷凝器温度无关。

公开(公告)号：US20100326812A1

公开(公告)日：2010-12-30

申请号：US12871177

申请日：2010-08-30

Applicant: Kingston Owens

Inventor： Kingston Owens

IPC: B01D1/22 ,  B01D1/06

CPC classification number: F22B37/18 ,  B01D1/06 ,  B01D1/065 ,  B01D1/221 ,  B01D1/28 ,  B01D1/2887 ,  B01D1/289 ,  B01D1/2893 ,  B01D3/10 ,  B01D3/42 ,  B01D5/0015 ,  B01D29/01 ,  B01D29/52 ,  B01D29/66 ,  B01D29/96 ,  B01D35/12 ,  F04C19/002 ,  F04C19/004 ,  F04C19/005 ,  F04C19/008 ,  F04C29/0085 ,  F04C2270/86 ,  F22B1/08 ,  F28D7/0066 ,  F28D7/1669 ,  F28D9/005 ,  F28D9/0093 ,  F28F1/40 ,  F28F13/00 ,  Y10S203/08

Abstract: A method of operating an evaporator is described. In evaporator feed water, a Taylor bubble is developed which has an outer surface including a thin film in contact with an inner surface of an outer wall of an evaporator tube. The Taylor bubble is heated as it rises within the evaporator tube so that liquid in the thin film transitions into vapor within the bubble.

Abstract translation: 描述了一种操作蒸发器的方法。 在蒸发器给水中，形成泰勒气泡，其具有包括与蒸发器管的外壁的内表面接触的薄膜的外表面。 泰勒气泡在蒸发器管内上升时被加热，使得薄膜中的液体转变成气泡内的蒸汽。