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1. 发明专利

JP2015016399A 圧力スイング吸着装置の使用方法と圧力スイング吸着装置有权
标题翻译：使用压力旋转吸附装置和压力振动吸附装置的方法
公开(公告)号：JP2015016399A
公开(公告)日：2015-01-29
申请号：JP2013143642
申请日：2013-07-09
申请人：大阪瓦斯株式会社 , Osaka Gas Co Ltd
发明人： TSUJIMOTO SOICHIRO
IPC分类号： B01D53/04
摘要：【課題】必要とする製品ガスの濃度が比較的低い場合に、製品ガスの取得量を大幅に向上させることのできる圧力スイング吸着装置の使用方法と圧力スイング吸着装置の提供。【解決手段】吸着槽1に原料ガスを導入し、吸着ガスを吸着させて製品ガスを製品槽2に収容する吸着工程と、吸着槽1内に残存する回収ガスを回収槽3に回収する回収工程と、吸着ガスを脱着して吸着槽1から排出する脱着工程と、吸着槽1内を昇圧する昇圧工程とを繰り返し実行して製品ガスを製造するもので、回収槽3から槽内の回収ガスを外部に供給する回収ガス供給配管10が設けられ、回収槽3内の回収ガスを吸着槽1に供給して吸着槽1内を昇圧する第1昇圧工程を実行した後、製品槽2内の製品ガスを吸着槽1に供給して吸着槽1内を更に昇圧する第2昇圧工程を実行し、その後、吸着工程を実行する圧力スイング吸着装置の使用方法と圧力スイング吸着装置。【選択図】図2
摘要翻译：要解决的问题：为了提供使用变压吸附装置和变压吸附装置的方法，当所需的产物气体的浓度相对较低时，可以显着增加获得的产物气体的量。解决方案：在使用变压吸附装置和变压吸附装置的方法，通过反复进行以下工序来制造产品气体：将原料气体导入吸附槽1的吸附工序，吸附气体被吸附，存储产品罐2中的产品气体; 将残留在吸附罐1中的回收气体回收到回收槽3中的回收工序; 使吸附气体从吸附罐1解吸和排出的解吸步骤; 以及增加吸附罐1的压力的增压步骤。设置有回收气体供给管道10，用于从回收罐3将罐中的回收气体供给到外部。在通过将回收罐3中的回收气体供给到吸附罐1以增加吸附罐1中的压力来进行第一增压步骤之后，通过将产物气体供给到产品中来进行第二增压步骤罐2吸附到吸附槽1上，进一步提高吸附槽1的压力，进行吸附工序。

2. 发明专利

JP2015009201A 圧力スイング吸着装置とその使用方法审中-公开
标题翻译：压力振动吸收装置及其使用方法
公开(公告)号：JP2015009201A
公开(公告)日：2015-01-19
申请号：JP2013136523
申请日：2013-06-28
申请人：大阪瓦斯株式会社 , Osaka Gas Co Ltd
发明人： TSUJIMOTO SOICHIRO
IPC分类号： B01D53/04 , C01B13/02
摘要：【課題】最終的に必要とする製品ガスの濃度が比較的低い場合に、その製品ガスの取得量を大幅に向上させることのできる圧力スイング吸着装置とその使用方法の提供。【解決手段】吸着剤が収納された吸着槽1に原料ガスを導入し、吸着ガスを吸着剤に吸着させて製品ガスを吸着槽1から製品ガス供給配管8を介して取り出す吸着工程と、吸着工程終了後、吸着槽1内に残存する回収ガスを回収槽3に回収する回収工程と、回収工程終了後、吸着剤に吸着された吸着ガスを脱着して吸着槽1から排出する脱着工程と、脱着工程終了後、回収槽3内の回収ガスを吸着槽1に供給して吸着槽1内を昇圧する昇圧工程とを繰り返し実行して製品ガスを製造するもので、回収槽3と製品ガス供給配管8とを接続する回収ガス供給配管11が設けられ、回収槽3内の回収ガスを吸着槽1からの製品ガスに混合して取り出す圧力スイング吸着装置とその使用方法。【選択図】図1
摘要翻译：要解决的问题：提供一种变压吸附装置，其能够在产品气体的浓度相对较低时最终显着提高所需要的产物气体的获取量，并提供使用变压吸附装置的方法解决方案：变压吸附装置通过重复执行以下步骤产生产物气体：将原料气体引入到与吸附剂一起储存的吸附罐1中的吸附步骤，使吸附剂吸附吸附气体并取出产物气体经由产品气体供应管道8从吸附罐1中排出; 在吸附工序结束后回收残留在吸附罐1中的回收气体的回收工序; 解吸步骤，在所述回收工序结束后，将由所述吸附剂吸附的吸附气体解吸并从所述吸附罐1排出吸附气体; 将回收罐3中的回收气体供给到吸附罐1中并增加吸附罐1中的压力的增压步骤。变压吸附装置包括将回收罐3与产物气体供给连接的回收气体供给管道11 管道8并将回收罐3中的回收气体与从吸附罐1排出的产物气体混合并取出所得的气体混合物。还提供了使用变压吸附装置的方法。

3. 发明专利

JP2013181698A Once-through boiler and usage of the same 审中-公开
标题翻译：通过锅炉及其使用
公开(公告)号：JP2013181698A
公开(公告)日：2013-09-12
申请号：JP2012045565
申请日：2012-03-01
申请人： Osaka Gas Co Ltd , 大阪瓦斯株式会社
发明人： TSUJIMOTO SOICHIRO , OHASHI TOSHIKUNI
IPC分类号： F22D5/00
摘要： PROBLEM TO BE SOLVED: To provide a once-through boiler capable of efficiently generating steam of a heating object liquid without being overheated, even when using a heating gas of a temperature higher than a thermal decomposition temperature of steam of the heating object liquid, and to provide a usage of the once-through boiler.SOLUTION: A once-through boiler is provided with a heat transfer tube group 1 in a duct 5 while at least an upper header 3 is projected upward from the duct 5 in such an attitude that axial directions of heat transfer tubes 2 are arranged along a vertical direction. The once-through boiler is also provided with: a liquid level detector 7 for detecting a liquid level being a height of a liquid surface H of a heating object liquid L in the heat transfer tube group 1; a liquid level adjustment unit S for adjusting the liquid level of the heating object liquid L in the heat transfer tube group 1; and a controller 8 for controlling an operation of the liquid level adjustment unit S so that the liquid level detected by the liquid level detector 7 reaches the inside of a portion projected upward from the duct 5 in the heat transfer tube group 1.
摘要翻译：要解决的问题：即使使用温度高于加热对象液体的蒸汽的热分解温度的加热气体，也能够提供能够有效地产生加热物液体的蒸汽而不过热的直流式锅炉，以提供直流式锅炉的使用。解决方案：一根直流锅炉在管道5中设置有传热管组1，而至少一个上集管3从导管5向上突出，传热管2的轴向沿垂直方向排列。直流式锅炉还设有：用于检测传热管组1中的加热对象液体L的液面H的高度的液位检测器7; 用于调节传热管组1中的加热物液L的液面的液位调节单元S; 以及控制器8，用于控制液位调节单元S的操作，使得由液位检测器7检测到的液位到达传热管组1中从管道5向上突出的部分的内部。

4. 发明专利

JP2007330969A Detector for breakthrough of gas adsorption system 有权
标题翻译：用于气体吸收系统突破的探测器
公开(公告)号：JP2007330969A
公开(公告)日：2007-12-27
申请号：JP2007234022
申请日：2007-09-10
申请人： Osaka Gas Co Ltd , 大阪瓦斯株式会社
发明人： TSUJIMOTO SOICHIRO
IPC分类号： B01D53/04 , G01N5/02
摘要： PROBLEM TO BE SOLVED: To provide a detector that can automatically detect a breakthrough of an adsorbent to enable timely exchange of the adsorbent and detect an adsorbate at a low cost without an expensive breakthrough detector. SOLUTION: A gas adsorption system for removing an adsorbate by treating a gas containing the adsorbate in an adsorber 1 packed with an adsorbent 2, comprises an adsorption detecting material 4 disposed in a gas space 3 at the outlet of the adsorbent 2 and a means of determining the timing of exchange of the adsorbent 2. The timing of exchange of the adsorbent 2 is determined by automatically detecting that the concentration of the adsorbate at the outlet of the adsorber 1 has reached a predetermined level by detecting that the weight increase of the adsorption detecting material 4 has exceeded a predetermined value through a mechanism 6 for transforming the weight increase of the adsorption detecting material 4 into the change of the position of the adsorption detecting material 4. COPYRIGHT: (C)2008,JPO&INPIT
摘要翻译：要解决的问题：提供一种能够自动检测吸附剂突破的检测器，以便能够以低成本及时更换吸附剂并检测吸附物而不需要昂贵的穿透检测器。解决方案：通过在填充有吸附剂2的吸附器1中处理含有被吸附物的气体来除去被吸附物质的气体吸附系统包括设置在吸附剂2的出口处的气体空间3中的吸附检测材料4，以及确定吸附剂2的交换时间的手段。吸附剂2的交换时间是通过自动检测吸附器1出口处的被吸附物质浓度达到预定水平来确定的，通过用于将吸附检测材料4的重量增加转换为吸附检测材料4的位置的变化的机构6，已经超过了规定值。（C）2008，JPO＆INPIT

5. 发明专利

JP2006249942A Exhaust heat recovery system of reciprocation type internal combustion engine with supercharger 审中-公开
标题翻译：再生式内燃机排气热回收系统
公开(公告)号：JP2006249942A
公开(公告)日：2006-09-21
申请号：JP2005063833
申请日：2005-03-08
申请人： Osaka Gas Co Ltd , 大阪瓦斯株式会社
发明人： TSUJIMOTO SOICHIRO
IPC分类号： F01N5/02 , F02B29/04 , F02B37/00 , F02B37/02 , F02G5/02 , F22B1/18
CPC分类号： Y02P80/154 , Y02T10/144 , Y02T10/146 , Y02T10/16 , Y02T10/166
摘要： PROBLEM TO BE SOLVED: To utilize heat generated in accordance with cooling of compressed air as steam in many applications by a simple configuration.
SOLUTION: The supercharger 5 is provided in an air supply passage 4 for the reciprocation type internal combustion engine 1, and a front step intercooler 6 and a rear step intercooler 7 for cooling air for combustion after compression by pressurization by cooling water are provided. An exhaust gas heat exchanger 9 for recovering heat of exhaust gas is provided in an exhaust passage 8 for exhaust gas from the reciprocation type internal combustion engine 1. A water circulation pipe 12 is provided in a steam generator 11 for generating steam, the front step intercooler 6, and the exhaust gas heat exchanger 9. A bypass pipe 22 is connected with a section on a steam generator 11 side of the water circulation pipe 12 through a cross valve 21 to measure temperature of cooling water supplied into the front step intercooler 6 from the steam generator 11. The cross valve 21 is operated based on the measured temperature to control that temperature of cooling water supplied into the steam generator 11 becomes 100°C or more.
COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：要解决的问题：通过简单的配置，在许多应用中利用根据压缩空气的冷却产生的热量作为蒸汽。解决方案：增压器5设置在用于往复式内燃机1的空气供给通道4中，并且通过冷却水加压来压缩后的用于冷却用于燃烧的空气的前台中间冷却器6和后台中间冷却器7 提供。在来自往复式内燃机1的废气的排气通道8中设置有用于回收排气热的排气热交换器9.水循环管12设置在用于产生蒸汽的蒸汽发生器11中，前段中间冷却器6和排气热交换器9.旁通管22通过十字阀21与水循环管12的蒸汽发生器11侧的部分连接，以测量供给前台中间冷却器6的冷却水的温度根据测量温度操作十字阀21，以控制供给蒸汽发生器11的冷却水的温度为100℃以上。版权所有（C）2006，JPO＆NCIPI

6. 发明专利

JP2006068687A Deaerator by heating for boiler 有权
标题翻译：锅炉加热器的加热器
公开(公告)号：JP2006068687A
公开(公告)日：2006-03-16
申请号：JP2004257717
申请日：2004-09-03
申请人： Osaka Gas Co Ltd , Samson Co Ltd , 大阪瓦斯株式会社 , 株式会社サムソン
发明人： TSUJIMOTO SOICHIRO , YAMADA AKIRA , SANAGI TORU , KUROKI SHIGERU , ANDO NORITOSHI , OBARA AKIRA
IPC分类号： C02F1/20 , B01D19/00 , F22D1/28
摘要： PROBLEM TO BE SOLVED: To provide a deaerator by heating for a boiler capable of effectively deaerating while preventing the cost increase.
SOLUTION: The deaerator by heating for the boiler for deaerating dissolved oxygen in boiler feed water by flashing the feed water heated in a heat exchanger 13 for deaeration into which the feed water is supplied from a feed water tank 10 comprises the feed water tank 10 connected to a deaerating tank 7 via a communicating pipe 6 so as to return a part of the deaerated water from the deaerating tank 7 to the feed water tank 10 while the feed water whose volume is 1.1 to 2 times the rated capacity of the boiler is continuously supplied from the feed water tank 10 to the heat exchanger 13 to maintain the returning flow of the part of the deaerated water from the deaerating tank 7 to the feed water tank 10 as well as to keep the temperature of the boiler feed water to 103 to 115°C and the water pressure to 0.03 to 0.4 MPaG at the entry of a pressure reducing section while the pressure in the deaeration tank is kept at the atmospheric pressure.
COPYRIGHT: (C)2006,JPO&NCIPI
摘要翻译：要解决的问题：通过加热能够有效地脱气的锅炉来提供除气器，同时防止成本增加。解决方案：通过加热锅炉给脱水装置的脱气器，通过使从供水槽10供给的供水的热交换器13中加热的进料水闪蒸来进行脱水，对供给水进行脱气，通过连通管6连接到脱气罐7的罐10，以将脱气水的一部分从脱气罐7返回到给水箱10，同时供给水的体积为锅炉从给水箱10连续地供给到热交换器13，以保持脱气水的一部分从脱气罐7返回到给水箱10的返回流量，并保持锅炉给水的温度在脱气池中的压力保持在大气压的同时，在减压部的入口处的压力为103〜115℃，水压为0.03〜0.4MPaG。版权所有（C）2006，JPO＆NCIPI

7. 发明专利

JP2005257338A Method and apparatus for detecting breakage of gas adsorbing treatment system 有权
标题翻译：用于检测气体吸收处理系统破裂的方法和装置
公开(公告)号：JP2005257338A
公开(公告)日：2005-09-22
申请号：JP2004066213
申请日：2004-03-09
申请人： Osaka Gas Co Ltd , 大阪瓦斯株式会社
发明人： TSUJIMOTO SOICHIRO
IPC分类号： G01N1/22 , B01D53/04 , C10L3/10 , G01N5/02 , G01N30/00
CPC分类号： Y02E50/343
摘要： PROBLEM TO BE SOLVED: To precisely detect the breakage of an adsorbing material even if complicated gas analyzing work is not performed to still more rationalize the replacing period of the adsorbing material. SOLUTION: This gas adsorbing treatment system is constituted so that gas containing a substance to be adsorbed is treated using an adsorbing column 1 filled with the adsorbing material 2 to remove the substance to be adsorbed by the adsorbing material 2. In this gas adsorbing treatment system, a part of the gas is taken out from the midway of the packed layer of the adsorbing material 2 of the adsorbing column 1 by piping 4 to be passed through the a detecting adsorbing material packed member 3 packed with the adsorbing material. The detecting adsorbing material packed member 3 is taken out at an appropriate period to be measured in its weight and, when the weight increase of the detecting adsorbing material packed member 3 becomes a predetermined value, the outlet concentration of the adsorbing substance from the adsorbing column 1 is judged to reach a predetermined level to determine the replacing period of the adsorbing material 2. COPYRIGHT: (C)2005,JPO&NCIPI
摘要翻译：要解决的问题：即使不进行复杂的气体分析工作也能精确地检测吸附材料的破损，从而使吸附材料的更换周期更加合理。解决方案：该气体吸附处理系统构成为使用填充有吸附材料2的吸附塔1处理含有待吸附物质的气体，以除去被吸附材料2吸附的物质。在该气体吸附处理系统中，通过管道4从吸附塔1的吸附材料2的填充层的中间部分取出一部分气体，通过填充有吸附材料的检测用吸附材料填充部件3。检测吸附材料填充部件3以适当的时间取出，以其重量进行测量，并且当检测吸附材料包装件3的重量增加成为预定值时，吸附物质从吸附塔的出口浓度 1被判断达到预定水平以确定吸附材料2的替换周期。版权所有（C）2005，JPO＆NCIPI

8. 发明专利

JP2005069536A Waste heat recovery type adsorption type freezer 审中-公开
标题翻译：废热回收式吸附式冷冻机
公开(公告)号：JP2005069536A
公开(公告)日：2005-03-17
申请号：JP2003298293
申请日：2003-08-22
申请人： Osaka Gas Co Ltd , 大阪瓦斯株式会社
发明人： TSUJIMOTO SOICHIRO
IPC分类号： F25B17/08 , F25B27/02
CPC分类号： Y02A30/274 , Y02A30/278 , Y02B30/64 , Y02P80/152
摘要： PROBLEM TO BE SOLVED: To provide a waste heat recovery type adsorption type freezer with improved freezing output by improving waste heat recovery efficiency.
SOLUTION: A steam boiler 3 is connected to an engine generator 1 via a waste gas pipe 2, and a heat exchanger 6 is connected thereto via a jacket cooling water pipe 5 with a jacket cooling water pump being interposed. An adsorption type freezer 10 is connected to the heat exchanger 5 via a hot water return pipe 9a and a hot water supply pipe 9b. A waste gas heat exchanger 19 is provided between a hot water outlet of the heat exchanger 6 and the adsorption type freezer 10, or at the hot water supply pipe 9b, a waste gas pipe 2 is introduced to the waste gas heat exchanger 19 from the steam boiler 3, waste gas having passed through the steam boiler 3 is introduced into the waste gas heat exchanger 19, and hot water to be supplied to the adsorption type freezer 10 is heated.
COPYRIGHT: (C)2005,JPO&NCIPI
摘要翻译：要解决的问题：提供通过提高废热回收效率来提高冷冻产量的废热回收型吸附型冷冻机。蒸汽锅炉3经由废气管2与发动机发电机1连接，热交换器6通过夹套冷却水管5与外壳冷却水泵相连接。吸附式冷冻机10通过热水回流管9a和热水供给管9b与热交换器5连接。在热交换器6的热水出口和吸附式冷冻机10之间，或在热水供给管9b上设置有废气热交换器19，废气热交换器19从废气热交换器19 蒸汽锅炉3将通过蒸汽锅炉3的废气引入废气热交换器19中，供给到吸附式冷冻机10的热水被加热。版权所有（C）2005，JPO＆NCIPI

9. 发明专利

JP2003074906A Desiccant dehumidification apparatus 审中-公开
标题翻译：除臭剂除湿装置
公开(公告)号：JP2003074906A
公开(公告)日：2003-03-12
申请号：JP2002176336
申请日：2002-06-17
申请人： Osaka Gas Co Ltd , 大阪瓦斯株式会社
发明人： EGAITSU TAKAO , FUKUCHI TORU , IKEMOTO HIROKI , TSUJIMOTO SOICHIRO
IPC分类号： F24F3/153 , F24F3/14 , F24F3/147 , F24F6/08
CPC分类号： F24F3/1423 , F24F2203/1012 , F24F2203/1032 , F24F2203/104 , F24F2203/1056 , F24F2203/1072 , F24F2203/1084
摘要： PROBLEM TO BE SOLVED: To provide a desiccant dehumidification apparatus capable of performing humidification besides dehumidification, and also eliminating generation of useless energy, need for a surplus apparatus and water feed piping. SOLUTION: A feed route 1 through which air is sucked from the outside of a room and fed in a room, and a discharge route 2 through which exhaust gas is sucked and discharged from the indoor to the outdoor, and juxtaposed with each other. A desiccant rotor 3 provided with a moisture absorbent and rotationally driven at a given rotation speed is disposed astride the air feed route 1 and the discharge route 2. When feed air fed in a room is dehumidified, exhaust air is heated in the suction side for exhaust gas for from the desicant rotor 3. When feed air fed in a room is humidified, heating is switched such that the feed air is heated in the suction side for feed air for from the desicant rotor 3 in the feed air route 1.
摘要翻译：要解决的问题：为了提供除除除湿之外还可以进行除湿的干燥剂除湿装置，并且还消除了无用的能量的产生，需要多余的装置和给水管道。解决方案：从房间外部吸入空气并进入室内的进料路线1和排出气体从室内吸入排出到排出口2的排出路径2，并排配置。设置有吸湿剂并以给定旋转速度旋转驱动的干燥剂转子3跨过空气供给路径1和排出路径2设置。当进入室内的进料空气被除湿时，排气在吸入侧被加热从干燥转子3排出的废气。当进入室内的进料空气被加湿时，切换加热，使得进料空气在进料空气路径1中从干燥剂转子3的进料空气吸入侧被加热。

10. 发明专利

JP2002195682A OPERATION METHOD FOR ABSORPTION FREEZER, AND THE ABSORPTION FREEZER 失效
公开(公告)号：JP2002195682A
公开(公告)日：2002-07-10
申请号：JP2000390197
申请日：2000-12-22
申请人： OSAKA GAS CO LTD , NISHIYODO KUCHOKI KK
发明人： TSUJIMOTO SOICHIRO , IKEMOTO HIROKI , YONEZAWA YASUO , NAKANO HIROKI
IPC分类号： F25B17/08
摘要： PROBLEM TO BE SOLVED: To provide an operation method for an absorption freezer wherein miniaturization of the absorption freezer is ensured, and simultaneously a cold heat output is improved and cold heat derivation temperature is decreased. SOLUTION: An operation method for an absorption freezer is provided, in which activated carbon is useable as an adsorbent, and there is useable as a refrigerant those containing methanol or ethanol as the chief ingredients. Upon a freezing operation cycle being finished, communication between a pair of adsorbent heat exchangers 1, and a condenser 2, and further a vaporizer 3 is interrupted, and the pair of the adsorbent heat exchangers 1 are made to communicate. Furthermore, after an advance process has been performed, where regeneration and adsorption of a refrigerant are advanced, the adsorbent heat exchangers 1, where regeneration and adsorption are performed, are changed over so as to advance to the next freezing operation cycle.

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