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公开(公告)号:WO2013020968A3
公开(公告)日:2013-06-06
申请号:PCT/EP2012065400
申请日:2012-08-07
申请人: SHELL INT RESEARCH , AGARWAL AKHIL , MURRAY BRENDAN DERMOT , MAYNE JOSEPH MARSHALL , RAMACHANDRAN CHEN ELIZABETH , WILLIAMS PAUL JASON
发明人: AGARWAL AKHIL , MURRAY BRENDAN DERMOT , MAYNE JOSEPH MARSHALL , RAMACHANDRAN CHEN ELIZABETH , WILLIAMS PAUL JASON
CPC分类号: B01D67/0051 , B01D53/228 , B01D63/061 , B01D63/063 , B01D63/066 , B01D71/028 , B01D2323/42 , B01D2323/50 , C01B37/08 , C01B39/54
摘要: A method including preparing a molecular sieve material in a first chamber; transferring the molecular sieve material from the first chamber to a second chamber comprising at least one support; in the second chamber, contacting the at least one support with the molecular sieve material under conditions that promote the crystallization of molecular sieve material on the at least one support; and synthesizing crystals of molecular sieve material on the at least one support. A system including a first chamber defining a volume sufficient to accommodate a volume of molecular sieve material, an inlet and an outlet; a heating element coupled to the first chamber; and a second chamber comprising a pair of inlets and defining a volume sufficient to accommodate a support.
摘要翻译: 一种包括在第一室中制备分子筛材料的方法; 将分子筛材料从第一室转移到包含至少一个载体的第二室; 在所述第二室中,在促进所述至少一种载体上的分子筛材料的结晶的条件下使所述至少一种载体与所述分子筛材料接触; 并在所述至少一个载体上合成分子筛材料的晶体。 一种包括限定足以容纳一定体积的分子筛材料的体积的第一室的系统,入口和出口; 耦合到所述第一室的加热元件; 以及包括一对入口并限定足以容纳支撑件的体积的第二腔室。
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公开(公告)号:WO2013020968A2
公开(公告)日:2013-02-14
申请号:PCT/EP2012/065400
申请日:2012-08-07
申请人: SHELL INTERNATIONALE RESEARCH MAATSCHAPPIJ B.V. , AGARWAL, Akhil , MURRAY, Brendan Dermot , MAYNE, Joseph Marshall , RAMACHANDRAN, Chen Elizabeth , WILLIAMS, Paul Jason
发明人: AGARWAL, Akhil , MURRAY, Brendan Dermot , MAYNE, Joseph Marshall , RAMACHANDRAN, Chen Elizabeth , WILLIAMS, Paul Jason
IPC分类号: B01D53/22
CPC分类号: B01D67/0051 , B01D53/228 , B01D63/061 , B01D63/063 , B01D63/066 , B01D71/028 , B01D2323/42 , B01D2323/50 , C01B37/08 , C01B39/54
摘要: A method including preparing a molecular sieve material in a first chamber; transferring the molecular sieve material from the first chamber to a second chamber comprising at least one support; in the second chamber, contacting the at least one support with the molecular sieve material under conditions that promote the crystallization of molecular sieve material on the at least one support; and synthesizing crystals of molecular sieve material on the at least one support. A system including a first chamber defining a volume sufficient to accommodate a volume of molecular sieve material, an inlet and an outlet; a heating element coupled to the first chamber; and a second chamber comprising a pair of inlets and defining a volume sufficient to accommodate a support.
摘要翻译: 包括在第一室中制备分子筛材料的方法; 将分子筛材料从第一室转移到包含至少一种载体的第二室; 在第二室中,在促进至少一种载体上的分子筛材料结晶的条件下,使至少一种载体与分子筛材料接触; 和在至少一个载体上合成分子筛材料的晶体。 包括限定足以容纳一定体积的分子筛材料的体积的第一腔室,入口和出口; 连接到第一腔室的加热元件; 以及包含一对入口并限定足以容纳支撑物的体积的第二腔室。
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公开(公告)号:WO03071197A3
公开(公告)日:2003-09-25
申请号:PCT/IN0300029
申请日:2003-02-19
发明人: RANE M V , AGARWAL AKHIL
CPC分类号: F28D15/06 , F24J2/32 , F25B17/08 , F25B27/007 , F25B27/02 , F25B35/04 , F25B2315/005 , F28D15/0266 , F28D15/0275 , Y02A30/274 , Y02A30/278 , Y02B30/64 , Y02E10/44
摘要: This invention is related to design of adsorption modules that overcome the problems of low thermal conductivity of adsorbents, without increasing the thermal mass of the system. Further the adsorption module when integrated into system configurations involving condensers, evaporators and other components, to implement different cycles, deliver characteristics of lower cycle times, high coefficient of performance (COP), high specific cooling power (SCP) with easy operability. The adsorption modules make it possible to develop compact adsorption systems by overcoming the problems of low thermal conductivity of adsorbents without increasing the thermal mass of the adsorption modules, thereby increasing heat transfer rates and reducing cycle time while maintaining high efficacy of the cycles and processes in which they are used. The adsorption module of this invention leads to lower cycle times as low as 5 minutes and makes it possible to achieve high system Coefficient of Performance (COP) up to 0.9 due to reduced thermal mass while offering high specific cooling power in the range of 50 to 750 W/kg of AC when integrated into a system. It is easy to manufacture and operation and reduced the costs. Further this invention discloses a refrigeration cum heating system wherein the heat pipe in thermal contact with the adsorption modules increase the heat transfer rates without increasing the thermal mass leading to increase of COP and single or multistage pressure equalisation increases the internal regeneration of heat thereby increasing the COP, reducing the cycle time resulting in increased specific cooling power (SCP), reducing the required quantity of adsorbent/refrigerant making the module compact and cost effective.
摘要翻译: 本发明涉及吸附模块的设计,其克服了吸附剂的低导热性问题,而不增加系统的热质量。 此外,当集成到涉及电容器,蒸发器和其他部件的系统配置中以实现不同的循环时,吸附模块提供具有较低循环时间,高性能系数(COP),易于操作的高比冷却功率(SCP)的特性。 吸附模块可以通过克服吸附剂的低导热性问题而开发紧凑的吸附系统,而不增加吸附模块的热质量,从而提高传热速率并缩短循环时间,同时保持循环和工艺的高效率 它们被使用。 本发明的吸附模块导致较低的循环时间低至5分钟,并且由于热质量降低,可以实现高达0.9的高系统性能系数(COP),同时在50至50的范围内提供高比冷却功率 集成到系统中时,为750 W / kg AC。 易于制造和操作,降低成本。 此外,本发明公开了一种制冷暨加热系统,其中与吸附模块热接触的热管增加了传热速率,而不增加热质量导致COP的增加,并且单级或多级压力均衡增加了热量的内部再生,从而增加了 COP,减少循环时间,从而提高比重冷却功率(SCP),减少所需量的吸附剂/制冷剂,使模块更加紧凑,性价比高。
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公开(公告)号:WO2003071197A2
公开(公告)日:2003-08-28
申请号:PCT/IN2003/000029
申请日:2003-02-19
发明人: RANE, M., V. , AGARWAL, Akhil
IPC分类号: F25B
CPC分类号: F28D15/06 , F24S10/90 , F25B17/08 , F25B27/007 , F25B27/02 , F25B35/04 , F25B2315/005 , F28D15/0266 , F28D15/0275 , Y02A30/274 , Y02A30/278 , Y02B30/64 , Y02E10/44
摘要: This invention is related to easy to fabricate design of adsorption modules that overcome the problems of low thermal conductivity of adsorbents, without increasing the thermal mass of the system. Further the adsorption module when integrated into system configurations involving condensers, evaporators and other components, to implement different cycles, deliver characteristics of lower cycle times, high coefficient of performance (COP), high specific cooling power (SCP) with easy operability. The adsorption modules make it possible to develop compact adsorption systems by overcoming the problems of low thermal conductivity of adsorbents without increasing the thermal mass of the adsorption modules, thereby increasing heat transfer rates and reducing cycle time while maintaining high efficacy of the cycles and processes in which they are used. The adsorption module of this invention leads to lower cycle times as low as 5 minutes and makes it possible to achieve high system Coefficient of Performance (COP) up to 0.9 due to reduced thermal mass while offering high specific cooling power in the range of 50 to 750 W/kg of AC when integrated into a system. It is easy to manufacture and operation and reduced the costs. Further this invention discloses a refrigeration cum heating system wherein the heat pipe in thermal contact with the adsorption modules increase the heat transfer rates without increasing the thermal mass leading to increase of COP and single or multistage pressure equalisation increases the internal regeneration of heat thereby increasing the COP, reducing the cycle time resulting in increased specific cooling power (SCP), reducing the required quantity of adsorbent/refrigerant making the module compact and cost effective.
摘要翻译: 本发明涉及易于制造吸附模块的设计,其克服了吸附剂的低导热性问题,而不增加系统的热质量。 进一步将吸附模块集成到涉及冷凝器,蒸发器和其他组件的系统配置中,以实现不同的循环,实现更低循环时间,高性能系数(COP)和高特定冷却功率(SCP)的特点,操作简便。 吸附模块可以通过克服吸附剂热导率低的问题而不增加吸附模块的热质量来开发紧凑型吸附系统,从而增加传热速率并减少循环时间,同时保持循环和过程的高效率 它们被使用。 本发明的吸附模块导致较低的循环时间低至5分钟,并且由于减少了热质量,使得可以实现高达0.9的高系统性能系数(COP),同时提供50至50的范围内的高特定冷却功率。 集成到系统中时为750 W / kg AC。 制造和操作容易,并降低成本。 此外,本发明公开了一种制冷兼加热系统,其中与吸附模块热接触的热管增加传热速率而不增加热质量导致COP的增加,并且单级或多级压力平衡增加了内部再生热量,从而增加了 COP,缩短循环时间,提高特定冷却功率(SCP),减少吸附剂/致冷剂的使用量,使模块紧凑且具有成本效益。
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