| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | High power density thermoelectric system | JP2006523994 | 2004-08-17 | JP4994034B2 | 2012-08-08 | ロン イー. ベル |
| 142 | Thermoelectric power generation system | JP2011100482 | 2011-04-28 | JP2011211900A | 2011-10-20 | BELL LON E |
| PROBLEM TO BE SOLVED: To provide a highly efficient, compact power generator through a combination of a plurality of thermoelectric elements.SOLUTION: The thermoelectric power generation system has a plurality of thermoelectric elements forming an assembly having a relatively low-temperature side and a relatively high-temperature side during operation. A working medium collects waste heat from the relatively low-temperature side of at least some of the plurality of thermal elements. After the waste heat is collected, the working medium is further heated. The working medium then distributes at least some of the heat to the relatively high-temperature side of at least some of the plurality of thermal elements. As a result, power is generated by at least some of the plurality of thermal elements. | ||||||
| 143 | Multiple column generator for improved aqueous ammonia absorption system | JP2002518046 | 2001-07-30 | JP4740519B2 | 2011-08-03 | キロル,ランス,ディー.; サルキシャン,ポール; ドゥーリ,ウィリアム,ティー.; ロッケンフェラー,ウベ |
| An aqua-ammonia absorption apparatus generator assembly comprising a boiler section, a solution-heated-desorber section, and adiabatic desorber or GAX desorber section, and a rectifier section, incorporates a plurality of columns, each column comprising one or more of the sections, with the columns arranged so that the lowest end of a first column is lower than the top end of a second column, and uses one or more eductors driven by a feed stream from the absorber for pumping liquid refrigerant from the bottom of a lower temperature column to the top of the next hotter column. | ||||||
| 144 | Improved thermoelectric power generation system | JP2004511754 | 2003-06-06 | JP4324797B2 | 2009-09-02 | ロン イー. ベル |
| 145 | Thermoelectric cooling transient and transient heating system | JP2003573366 | 2002-03-04 | JP4088792B2 | 2008-05-21 | ロン イー. ベル |
| 146 | Thermoelectric generation system | JP2006523963 | 2004-08-16 | JP2007503197A | 2007-02-15 | ロン イー. ベル |
| 動作中に比較的低温側および比較的高温側を有するアセンブリを形成する複数の熱電素子を有する熱電発電システムであり、作動媒体は、複数の熱電素子の少なくともいくつかの比較的低温側から廃熱を集め、上記の廃熱を集めた後、作動媒体はさらに加熱され、次に複数の熱電素子の少なくともいくつかの比較的高温側にその熱の少なくとも一部を分配し、それによって、複数の熱電素子の少なくともいくつかでは電力を生成する。 | ||||||
| 147 | High power density thermoelectric system | JP2006523994 | 2004-08-17 | JP2007503121A | 2007-02-15 | ロン イー. ベル |
| 熱絶縁の利点を利用する複数のコンパクトで高効率かつ高出力密度の熱電システムについて記載する。 そのような構成は、高いシステム効率および出力密度を示す。 一部の構成では、必要な熱電材料の量の実質的な削減を示す。 | ||||||
| 148 | Regenerator | JP31140395 | 1995-11-29 | JP3702017B2 | 2005-10-05 | 正之 大能; 澄雄 池田; 一哉 澤倉 |
| It is an objective of the present invention to improve the response performance of absorption refrigeration machine to changes in air-conditioning load by reducing irregularity in solution concentration. A spreader 34 is provided with openings 34a having a constant diameter, and these openings are positioned or aligned in such a manner that the concentration of the openings 34a is rare on one side of the spreader but dense on the other side. The side having the rare concentration of the openings 34a is placed to the lateral wall 1a of a vessel 1 in which a solution outlet 16 is provided. The side having the dense concentration is placed to the other lateral wall 1b of the vessel 1. The spreader 34 is placed at the position where it is slightly away from the solution outlet 16 toward a front wall 1c in a vapor portion of an evaporation-separative region 19, with the bottom plate of the spreader being horizontal. The spreader 34 is provided with supply means 35, which extends parallel to and equidistant from the lateral walls 1a and 1b of the vessel 1. With this supply means, the solution which has absorbed a refrigerant at an absorber is supplied to the longitudinally central portion of the spreader. | ||||||
| 149 | Improved thermoelectric power generation system | JP2004511754 | 2003-06-06 | JP2005529573A | 2005-09-29 | ロン イー. ベル |
| 改良された熱電発電システム(100)は、熱エネルギーのスループットを改善し増加させるために、回転熱電構成(135)を用いる。 これらのシステムは、ヘテロ構造の熱電材料、非常に薄くめっきされる材料、および堆積される熱電材料を使用することによって、さらに増強されて、前のバルク材料の一般的な出力密度よりも実質的に高い出力密度で作動する。 いくつかの構成を開示する。 | ||||||
| 150 | Improved thermal power generator of energy conversion efficiency using a convection type heat flow | JP2002579714 | 2002-02-07 | JP2004526322A | 2004-08-26 | ロン イー. ベル |
| 効率の改善された熱発電システムを開示する。 該システムでは、熱電素子のアレイ(402)を通して対流が活発に促進され、該熱電素子のアレイが発電に使用される。 熱パワーの対流が、1つ又は複数の熱電素子のアレイを通って、該熱電素子のアレイの少なくとも一端へと引き起こされ、それによって効率が向上する。 熱パワーがアレイに加えられて、アレイにわたって温度勾配が生じる。 熱電システムを別の発電システム(624)と組み合わせて、コージェネレーションシステムを形成することもできる。 | ||||||
| 151 | Absorption type cooling and heating machine | JP2003031007 | 2003-02-07 | JP2004239544A | 2004-08-26 | YAMAZAKI TAKAYUKI |
| PROBLEM TO BE SOLVED: To provide an absorption type cooling and heating machine capable of reducing the air volume of a blower while simplifying a constitution. SOLUTION: This absorption type cooling and heating machine comprises an exhaust gas burning regenerator 1 using an exhaust gas from an apparatus generating the exhaust gas as a heat source, an introducing channel 11 for guiding the exhaust gas to the exhaust gas burning regenerator 1, and a discharging channel 13 for discharging the exhaust gas from the exhaust gas burning regenerator. This absorption type cooling and heating machine further comprises a bypass channel 15 branched from the introducing channel 11, a channel switching means 19 having a first damper 19a mounted on the introducing channel 11 and a second damper 19b mounted on the bypass channel 15, and switching the flow of the exhaust gas between the introducing channel 11 and the bypass channel 15, a damper 23 mounted on the discharging channel 13 for blocking the circulation of the exhaust gas in the discharging channel 13, and an air supplying means 25 for sending a gas to a part between the damper 23 for blocking the circulation of the exhaust gas of the discharging channel 13 and the exhaust gas burning regenerator 1. COPYRIGHT: (C)2004,JPO&NCIPI | ||||||
| 152 | Improved type aqueous ammonia absorber system generator utilizing a structured packing | JP2002518047 | 2001-07-30 | JP2004506171A | 2004-02-26 | キロル,ランス,ディー.; サルキシャン,ポール |
| 吸収器、発生器、凝縮器、および蒸発器を含むアンモニア水吸収装置であって、発生器(10)が、ボイラーセクション(12)、加熱溶液脱着器セクション(14)、断熱脱着器(16)またはGAX脱着器(36)セクション、および精留器セクション(18)を含み、前記発生器の少なくとも1つの前記セクションの内部空間が、発生器の運転温度において水性アンモニア溶液に不活性な構造化パッキング材料で実質上充填されている装置。 | ||||||
| 153 | Multiple column generator for improved aqueous ammonia absorption system | JP2002518046 | 2001-07-30 | JP2004506170A | 2004-02-26 | キロル,ランス,ディー.; サルキシャン,ポール; ドゥーリ,ウィリアム,ティー.; ロッケンフェラー,ウベ |
| ボイラーセクション(22)、加熱溶液脱着器セクション(24)、および断熱脱着器またはGAX脱着器セクション、および精留器セクションを含むアンモニア水吸収装置の発生器アセンブリーであって、複数のカラム(20、26、28、30)が組み込まれ、各カラムが1つ以上のセクションを含み、複数のカラムは第1カラム(28)の最低端が第2カラム(26、30)の上端よりも低くなるように配置され、液体冷媒をより低温のカラム(28)の底からより高温の次のカラム(26)の上端へポンプ移送するための、吸収器からの供給流によって駆動される1つ以上のエダクター(25、27)が使用される。 | ||||||
| 154 | Integrated aqua ammonia cooling heating device | JP2001549976 | 2001-01-03 | JP2003519353A | 2003-06-17 | ポール サーキシアン; ウベ ロックンフェラー |
| (57)【要約】 アクアアンモニアによる冷却装置を変更して、加熱モード中においては装置の凝縮器(14)を通過せずに、選択的に加熱モード中には凝縮器として機能し冷却モード中には蒸発器として機能可能な熱交換器(19)に、冷媒を導く冷媒バイパス(52)を設けることによって、加熱器の機能を含むようにした。 | ||||||
| 155 | Absorption refrigeration machine | JP2000617370 | 2000-05-08 | JP2002544462A | 2002-12-24 | デイヴィッド アンソニー クラーク; ジェフリー デイヴィッド サドラー; ロバート ジェイムズ タッカー; アイク ベン ルア |
| (57)【要約】 臭化リチウム/水の溶液から水を沸騰分離させる発生器(4)を備えた吸収冷凍機(2)を提供する。 発生器(4)は、上側タンク(42)及び下側タンク(36)を有し、両タンク(42,36)は、溶液が上方に流れる熱交換チューブ(38)及び溶液が下方に流れる熱サイフォンチューブ(58)によって連結されている。 熱交換チューブ(38)は、バーナ(50)から燃焼室(46)に流れる燃焼生成物と交差するように配置され、熱サイフォンチューブ(58)は、熱仕切り手段によって燃焼生成物から断熱されている。 上側タンク(42)は、熱サイフォンチューブ(58)の上端と対向する弱溶液用入口(68)、蒸気出口(72)、よどみ帯域(78)を形成する垂直バッフル板(80,82)及び濃縮臭化リチウムの出口(70)を有する。 | ||||||
| 156 | Liquid dispensing device and falling film heat exchanger as well as the absorption chiller | JP54030798 | 1997-03-17 | JP3269634B2 | 2002-03-25 | 聡 三宅; 雄宏 佐藤; 達郎 藤居 |
| A liquid distributor, a falling film heat exchanger and an absorption refrigerating machine, which are inexpensive and favorably ensure uniform distribution of a liquid even in the case where the liquid distributor is installed in oblique position and foreign matters such as metal particles or the like are mixed in the liquid. The liquid distributor comprise a primary distribution duct of box-shaped cross section having an opening serving as a liquid inlet, and distribution holes serving as liquid outlets and formed on side surfaces of the primary distribution duct, and a group of box-shaped secondary distribution trays spaced from outer side surface and lower side surface of the primary distribution duct, and formed to be compartmented into a plurality of regions in a longitudinal direction of the primary distribution duct. Liquid dripping holes, through which the liquid is dropped, are formed in bottom surfaces of the secondary distribution trays. The liquid distributor is incorporated in falling film heat exchangers or absorption refrigerating machines. | ||||||
| 157 | Absorption chiller for regenerator | JP16331193 | 1993-06-08 | JP3262642B2 | 2002-03-04 | 修行 井上 |
| 158 | High temperature of the absorption chiller-heater regenerator and absorption chiller | JP1046993 | 1993-01-26 | JP3195100B2 | 2001-08-06 | 富久 大内; 孝夫 成瀬; 滋郎 杉本; 泰男 浦木; 道彦 相沢; 章 西口 |
| 159 | Absorption refrigerator | JP33166299 | 1999-11-22 | JP2001153483A | 2001-06-08 | UCHIMURA TOMOYUKI; MATSUBARA TOSHIO; SUZUKI AKIYOSHI; IRIE TOMOYOSHI |
| PROBLEM TO BE SOLVED: To provide an absorption refrigerator to suppress a total height to a value lower than the same height as that of a conventional absorption refrigerator and be decreased in size by using a film type plate heat-exchanger. SOLUTION: In an absorption refrigerator having a film type plate heat- exchanger used in an absorber A, an evaporator E, a regenerator G, and a condenser C, the absorber, the evaporator, the regenerator, and the condenser, all of which consists of the film type plate heat-exchanger consists, are all situated in a state to be laterally arranged in a horizontal direction. The film type plate heat exchanger is constituted such that the evaporator E and the absorber A and the regenerator G and the condenser C are respectively combined together and arranged in a longitudinal or a lateral position based on the lamination direction of a plate. An evaporator plate and an absorber plate or a regenerator plate and a condenser plate are respectively alternately laminated to constitute the respective film type plate heat exchangers. Spaces at the lower parts of the plates constitute holding parts 4, 5, 6, and 8 for a solution and a refrigerant. COPYRIGHT: (C)2001,JPO | ||||||
| 160 | Absorption refrigeration and heat pump system with defrost | JP50453591 | 1991-02-06 | JP2866200B2 | 1999-03-08 | PETEII SUTEIIFUAN II; KUTSUKU EFU BAATO |
| An integrated three-chamber absorption refrigeration and heat pump system with improved defrost capabilities having a solution pair including a material of unusable fluid stability at higher temperatures when manipulated in an apparatus and system to take advantage of its properties. Disclosed materials of a solution pair for operation as part of the system of this invention are ammonia as the refrigerant and sodium thiocyanate as the absorbent. A heat transfer sub-system is provided, for conveying a working fluid between the components, having multiple switchable valve means, including first, second, and third valve members selectively switchable to convey the working fluid from the cooling mode to the heating mode and vice versa, as well as to the defrost mode. | ||||||
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