CN102653869A - 节能制氢装置 - Google Patents

节能制氢装置 Download PDF

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Publication number
CN102653869A
CN102653869A CN2010102196403A CN201010219640A CN102653869A CN 102653869 A CN102653869 A CN 102653869A CN 2010102196403 A CN2010102196403 A CN 2010102196403A CN 201010219640 A CN201010219640 A CN 201010219640A CN 102653869 A CN102653869 A CN 102653869A
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hydrogen
energy
aqueous solution
conservation
electrolysis
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谭健
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/30Hydrogen technology
    • Y02E60/36Hydrogen production from non-carbon containing sources, e.g. by water electrolysis

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Abstract

节能制氢装置是把超低的电压(0.5伏左右以内)定向加在长度较短(10厘米以内)横截面积较大(几千平方毫米)的电解全电路中来进行电解制氢,即是实现超低电压大电流电解制氢。以达到节能之目的。

Description

节能制氢装置
节能制氢装置涉及从某些强电解质水溶液中电解出大量氢气的节能的方法。
节能制氢装置之前的电解法制氢是不节能的,其原因就是电解电压较高。
节能制氢装置能够提供从某些强电解质水溶液中电解出大量氢气的节能的方法。其原因就是电解电压较低,控制在0.5伏以内,多次实验铁的事实表明超低压电解制氢是完全可行的。
节能制氢装置的特征是把超低电压(0.5伏以内)定向加在长度较短(10厘米以内)横截面较大(几千平方毫米)的电解全电路中来进行电解制氢,即是超低电压大电流制氢,以达到节能之目的。
下面结合附图把节能制氢装置的具体情况作一下说明:
为了便于说明,把两幅图画在一张纸上。
附图中,图1是本节能制氢技术所设计的装置一个单元外形俯视原理示意图;图2是图1中标有A-A处的截面示意图。
如图1所示:本图主要由环形电解槽1,蠕动泵2,液态导体通连管3,永磁体4,氢气出口5,氧气出口6,进水口7等组成。
如图2所示:本图主要是由永磁体4,进水口7,容器体8,电枢通道9,软磁体10,两电极11,凹形绝缘体12,强电解质水溶液13,两气室14,气室隔片15,注水道16等组成。永磁体4位于容器体8的下端并与之相接,容器体内部最下部是电枢通道9,电枢通道9以上是凹形绝缘体12,凹形绝缘体12内部有软磁体10,两电极11位于容器体8内部下端两侧,凹形绝缘体12以上是强电解质水溶液13,强电解质水溶液13以上是两气室14,以隔片15作为14的分界,本图最上部是注水道16,它与一个氢气室连通,最上是进水口7。
下面再结合附图,把节能制氢装置的工作原理作一下说明:当电枢通道9装入液态导体、两电极11、强电解质水溶液13组成一个闭合电路进行电解,图2直观地表示乐这个电路的长度。

Claims (1)

1.节能制氢装置涉及从某些强电解质水溶液中电解出大量氢气的节能制氢的方法;
节能制氢装置之前的电解法制氢都是不节能的,其原因就是电解电压较高;
节能制氢装置能够提供从某些强电解质水溶液中电解出大量氢气的节能方法,其原因就是电解电压较低,控制在0.5伏以内,多次实验铁的事实表明超低电压电解制氢是完全可行的;
节能制氢装置的特征是把超低电压(0.5伏以内)定向加在长度较短(10厘米以内)横截面较大(几千平方毫米)的电解全电路中来进行电解制氢,即是超低电压大电流制氢,以达到节能之目的;
本装置主要由环形电解槽(1),蠕动泵(2),液态导体通连管(3),永磁体(4),氢气出口(5),氧气出口(6),进水口(7),容器体(8),电枢通道(9),软磁体(10),两电极(11),凹形绝缘体(12),强电解质水溶液(13),两气室(14),气室隔片(15),注水道(16),等组成。永磁体(4)位于容器体(8)的下端与之相连,容器体内部最下部是电枢通道(9),电枢通道(9)以上是凹形绝缘体(12),凹形绝缘体(12)内部有软磁体(10),两电极(11)位于容器体(8)内部下端两侧,凹形绝缘体(12)以上是强电解质水溶液(13),强电解质水溶液(13)以上是两气室(14),以隔片(15)作为两气室(14)的分界,最上部是注水道(16)它与一个氢气室连通,最上是进水口(7);
节能制氢装置的工作原理是:
当电枢通道(9)装入液态导体、两电极(11)、强电解质水溶液(13)组成一个闭合电路进行电解。
CN2010102196403A 2010-06-26 2010-06-26 节能制氢装置 Pending CN102653869A (zh)

Priority Applications (1)

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CN2010102196403A CN102653869A (zh) 2010-06-26 2010-06-26 节能制氢装置

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Application Number Priority Date Filing Date Title
CN2010102196403A CN102653869A (zh) 2010-06-26 2010-06-26 节能制氢装置

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CN102653869A true CN102653869A (zh) 2012-09-05

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11532156B2 (en) 2017-03-28 2022-12-20 Zhejiang Dahua Technology Co., Ltd. Methods and systems for fire detection

Non-Patent Citations (3)

* Cited by examiner, † Cited by third party
Title
化学工业部第一设计院: "《氯碱工业理化常数手册》", 30 September 1969, 化学工业出版社 *
王廉舫: "《水电解制氢氧》", 31 December 1996 *
陆忠兴等: "《氯碱化工生产工艺 氯碱分册》", 31 March 1995, 化学工业出版社 *

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11532156B2 (en) 2017-03-28 2022-12-20 Zhejiang Dahua Technology Co., Ltd. Methods and systems for fire detection

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Application publication date: 20120905