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1. 发明申请

WO2021123952A1 DEVICE FOR EXPANDING A FLUID 审中-公开
公开(公告)号：WO2021123952A1
公开(公告)日：2021-06-24
申请号：PCT/IB2020/060750
申请日：2020-11-16
申请人： ATLAS COPCO AIRPOWER, NAAMLOZE VENNOOTSCHAP
发明人： HEIRMAN, Peter , FABRY, Erik , GOETHALS, Anton , ÖHMAN, Henrik , RUBYCZ, Rasmus
IPC分类号： F04B9/02 , F01D15/10 , F01K27/02 , F02C6/18 , F04B23/02 , F02C1/10 , F05D2220/60 , F05D2220/76
摘要： Device for expanding a fluid, wherein the device (1) is provided with an expander element (2) for expanding the fluid, a generator (3) and a transmission (4) between the two, characterized in that the generator (3) is a liquid-cooled generator and the expander element (2) is heated using liquid, wherein the device (1) is further provided with a common liquid circuit (8) for the generator (3) and the expander element (2), wherein the liquid circuit (8) comprises a liquid pump (10) which can pump up liquid from a liquid reservoir (11), wherein the liquid circuit (8) also comprises a liquid line (9) which runs from the liquid reservoir (11) and which incorporates the liquid pump (10), the generator (3) and the expander element (2).

2. 发明申请

WO2021090988A1 랭킨사이클을 포함하는 전기자동차 审中-公开
公开(公告)号：WO2021090988A1
公开(公告)日：2021-05-14
申请号：PCT/KR2019/015173
申请日：2019-11-08
申请人： 한국생산기술연구원
发明人： 김영원 , 심정보 , 손진영
IPC分类号： F01K27/02 , F01K9/02 , F01D15/10 , F01K13/02 , F01P5/02 , F16C32/06 , B60W40/105 , B60L1/00 , H02S10/00 , H02S40/42
摘要： 본 발명에 따른 유량분배기가 구비된 랭킨사이클을 포함하는 전기자동차는, 작동유체의 순환계가 형성되는 랭킨사이클을 포함하는 전기자동차에 있어서, 상기 랭킨사이클은, 상기 순환계를 따라 상기 작동유체를 유동시키는 펌프, 상기 펌프에 의해 유동되는 상기 작동유체에 열에너지를 전달하는 배터리유닛, 모터유닛 및 태양광패널유닛 중 적어도 어느 하나를 포함하는 열원, 상기 순환계의 경로 상에 구비되어, 상기 열원을 통과한 작동유체의 열에너지를 통해 전기에너지를 발생시키는 발전유닛 및 상기 발전유닛을 통과한 작동유체와 외기를 서로 열교환시키는 라디에이터를 포함하며, 상기 랭킨사이클은, 상기 펌프에 의해 유동되는 상기 작동유체를 상기 배터리유닛, 상기 모터유닛 및 상기 태양광패널유닛 중 적어도 어느 일측으로 분배하는 유량분배기를 더 포함한다.

3. 发明申请

WO2019032552A1 NATURAL GAS LIQUID FRACTIONATION PLANT WASTE HEAT CONVERSION TO SIMULTANEOUS POWER AND POTABLE WATER USING KALINA CYCLE AND MODIFIED MULTI-EFFECT-DISTILLATION SYSTEM 审中-公开
公开(公告)号：WO2019032552A1
公开(公告)日：2019-02-14
申请号：PCT/US2018/045558
申请日：2018-08-07
申请人： SAUDI ARABIAN OIL COMPANY , ARAMCO SERVICES COMPANY
发明人： NOURELDIN, Mahmoud Bahy Mahmoud , KAMEL, Akram Hamed Mohamed
IPC分类号： C10G5/06 , B01D1/00 , B01D1/26 , B01D3/06 , B01D3/14 , C02F1/04 , C02F1/16 , C10G7/00 , F01K25/10 , F01K27/02 , F25J3/06 , F25J3/02
摘要： Certain aspects of natural gas liquid fractionation plant waste heat conversion to simultaneous power and potable water using Kalina Cycle and modified multi-effect-distillation system can be implemented as a system. The system includes a waste heat recovery heat exchanger network coupled to multiple heat sources of a Natural Gas Liquid (NGL) fractionation plant. The heat exchanger network is configured to transfer at least a portion of heat generated at the multiple heat sources to a first buffer fluid and a second buffer fluid flowed through the first heat exchanger network. The system includes a first sub-system configured to generate power. The first sub-system is thermally coupled to the waste heat recovery heat exchanger. The system includes a second sub-system configured to generate potable water from brackish water. The second sub-system is thermally coupled to the waste heat recovery heat exchanger.

4. 发明申请

WO2019032551A1 NATURAL GAS LIQUID FRACTIONATION PLANT WASTE HEAT CONVERSION TO SIMULTANEOUS COOLING CAPACITY AND POTABLE WATER USING KALINA CYCLE AND MODIFIED MULTI-EFFECT DISTILLATION SYSTEM 审中-公开
公开(公告)号：WO2019032551A1
公开(公告)日：2019-02-14
申请号：PCT/US2018/045557
申请日：2018-08-07
申请人： SAUDI ARABIAN OIL COMPANY , ARAMCO SERVICES COMPANY
发明人： NOURELDIN, Mahmoud Bahy Mahmoud , KAMEL, Akram Hamed Mohamed
IPC分类号： C10G5/06 , B01D1/00 , B01D1/26 , B01D3/06 , B01D3/14 , C02F1/04 , C02F1/16 , C10G7/00 , F01K25/10 , F01K27/02 , F25J3/06 , F25J3/02
摘要： Certain implementations of natural gas liquid fractionation plant waste heat conversion to simultaneous cooling capacity and potable water using Kalina Cycle and modified multi-effect distillation system can be implemented as a system. The system includes first waste heat recovery heat exchanger configured to heat a first buffer fluid stream by exchange with a first heat source in a natural gas liquid fractionation plant. The system includes a water desalination system comprising a first train of one or more desalination heat exchangers configured to heat saline by exchange with the heated first buffer fluid stream to generate fresh water and brine.

5. 发明申请

WO2019032544A1 NATURAL GAS LIQUID FRACTIONATION PLANT WASTE HEAT CONVERSION TO SIMULTANEOUS POWER AND COOLING CAPACITIES USING MODIFIED GOSWAMI SYSTEM 审中-公开
公开(公告)号：WO2019032544A1
公开(公告)日：2019-02-14
申请号：PCT/US2018/045550
申请日：2018-08-07
申请人： SAUDI ARABIAN OIL COMPANY , ARAMCO SERVICES COMPANY
发明人： NOURELDIN, Mahmoud Bahy Mahmoud , KAMEL, Akram Hamed Mohamed
IPC分类号： C10G5/06 , B01D1/00 , B01D1/26 , B01D3/06 , B01D3/14 , C02F1/04 , C02F1/16 , C10G7/00 , F01K25/10 , F01K27/02 , F25J3/06 , F25J3/02
摘要： Certain aspects of natural gas liquid fractionation plant waste heat conversion to simultaneous power and cooling capacities using modified Goswami system can be implemented as a system. The system includes a waste heat recovery heat exchanger configured to heat a buffer fluid stream by exchange with a heat source in a natural gas liquid fractionation plant. The system includes a modified Goswami cycle energy conversion system including one or more first energy conversion system heat exchangers configured to heat a working fluid by exchange with the heated buffer fluid stream, a separator configured to receive the heated working fluid and to output a vapor stream of the working fluid and the liquid stream of the working fluid, a turbine and a generator, wherein the turbine and generator are configured to generate power by expansion of a first portion of the vapor stream of the working fluid, and a cooling subsystem including a cooling element configured to cool a process fluid stream from the natural gas liquid fractionation plant by exchange with a condensed second portion of the vapor stream of the working fluid.

6. 发明申请

WO2019032529A1 NATURAL GAS LIQUID FRACTIONATION PLANT WASTE HEAT CONVERSION TO POTABLE WATER USING MODIFIED MULTI-EFFECT DISTILLATION SYSTEM 审中-公开
公开(公告)号：WO2019032529A1
公开(公告)日：2019-02-14
申请号：PCT/US2018/045531
申请日：2018-08-07
申请人： SAUDI ARABIAN OIL COMPANY , ARAMCO SERVICES COMPANY
发明人： NOURELDIN, Mahmoud Bahy Mahmoud , KAMEL, Akram Hamed Mohamed
IPC分类号： C10G5/06 , B01D1/00 , B01D1/26 , B01D3/06 , B01D3/14 , C02F1/04 , C02F1/16 , C10G7/00 , F01K25/10 , F01K27/02 , F25J3/06 , F25J3/02
摘要： Certain aspects of a natural gas liquid fractionation plant waste heat conversion to potable water using modified multi-effect distillation system can be implemented as a system that includes a waste heat recovery heat exchanger network thermally coupled to multiple heat sources of a Natural Gas Liquid (NGL) fractionation plant. The heat exchanger network is configured to recover at least a portion of heat generated at the multiple heat sources. The system includes a sub-system thermally coupled to the waste heat recovery heat exchanger network to receive at least a portion of heat recovered by the heat exchanger network. The sub-system is configured to perform one or more operations using at least the portion of heat recovered by the heat exchanger network.

7. 发明申请

WO2018027243A1 COHERENCE CAPACITOR FOR QUANTUM INFORMATION ENGINE 审中-公开
标题翻译：量子信息引擎的连贯电容器
公开(公告)号：WO2018027243A1
公开(公告)日：2018-02-08
申请号：PCT/US2017/054096
申请日：2017-09-28
申请人： LOCKHEED MARTIN CORPORATION , SABANCI UNIVERSITY
发明人： ALLEN, Edward Henry , ADAGIDELI, Inanc
IPC分类号： F01K13/00 , F01K27/00 , F01K27/02 , G01R33/12 , B82B1/00
摘要： System for quantum energy storage can include a quantum information engine including topological insulator having at least one edge. A coherence capacitor can include nuclei of atoms within the topological insulator, and each nucleus can have a spin direction. An energy source can be electrically connected to the topological insulator and configured to supply a current along the at least one edge of the topological insulator. The current can interact with at least one nucleus of the nuclei to flip a spin direction of the at least one nucleus. Methods for quantum energy storage, systems, and methods for storing and using quantum energy, quantum information engines, and quantum heat engines are also disclosed.
摘要翻译：用于量子能量存储的系统可以包括量子信息引擎，其包括具有至少一个边缘的拓扑绝缘体。相干电容器可以包括拓扑绝缘体内的原子核，并且每个核可以具有自旋方向。能量源可以电连接到拓扑绝缘体并且被配置为沿着拓扑绝缘体的至少一个边缘供应电流。电流可以与核的至少一个核相互作用以翻转至少一个核的自旋方向。还公开了用于量子能量存储的方法，用于存储和使用量子能量的系统和方法，量子信息引擎以及量子热机。

8. 发明申请

WO2017138320A1 圧縮空気貯蔵発電装置审中-公开
标题翻译：压缩空气存储发电机
公开(公告)号：WO2017138320A1
公开(公告)日：2017-08-17
申请号：PCT/JP2017/001756
申请日：2017-01-19
申请人：株式会社神戸製鋼所
发明人：久保　洋平 , 戸島　正剛 , 猿田　浩樹 , 松隈　正樹 , 佐藤　隆 , 坂本　佳直美
IPC分类号： F02C1/05 , F01K27/02 , F02C6/16 , H02J3/38 , F28D20/00
CPC分类号： F01K27/02 , F02C1/05 , F02C6/16 , F28D20/00 , H02J3/38 , Y02E10/563 , Y02E10/763 , Y02E60/142 , Y02E60/15 , Y02E70/30
摘要：圧縮空気貯蔵発電装置２は、モータ１２と、油冷式圧縮機１４と、蓄圧タンク１８と、膨張機２０と、発電機２２とを備える。また、装置２は、発電用の空気流路８ｂと、油分センサ２８と、セパレータ１６ｂと、第１切替機構３２ｂ，３２ｃと、制御装置４４とを備える。流路８ｂは、タンク１８から膨張機２０までを並列に設けられた第１空気流路９ａおよび第２空気流路９ｂを有する。センサ２８は、流路８ｂ内の油分を検出する。セパレータ１６ｂは、流路９ｂ中の圧縮空気から油分を分離する。第１切替機構３２ｂ，３２ｃは、圧縮空気が流路９ａを流れる状態または流路９ｂを流れる状態のいずれかに切り替える。制御装置４４は、センサ２８で基準以上の油濃度が検出されたとき、第１切替機構３２ｂ，３２ｃを動作させ、セパレータ１６ｂにより圧縮空気から油分を分離する。このように、油冷式圧縮機１４を使用しつつ環境性に配慮した圧縮空気貯蔵発電装置２を提供する。
摘要翻译：
压缩空气存储发电装置2包括一个马达12，油冷压缩机14，储罐18，膨胀机20，发电机22。该装置2包括用于发电，油传感器28，和分离器16b中，第一切换机构32b和32c，以及控制装置44的空气通道8b中。流路8b具有从罐18向膨胀机20并列设置的第一空气流路9a和第二空气流路9b。传感器28检测流路8b中的油。分离器16b将油成分从流路9b内的压缩空气中分离。第一切换机构32B，32C被压缩空气交换机通过状态或状态信道之一9B流经流道9a上。控制器44，当由传感器28，第一切换机构32B检测的以上标准的油浓度，32C被操作，以通过分离器16b中的油从压缩的空气中分离。因此，在使用油冷式压缩机14的同时，提供考虑环境因素的压缩空气储存和发电设备2。

9. 发明申请

WO2017073040A1 太陽熱発電装置およびその制御方法审中-公开
标题翻译：太阳能热发电装置及其控制方法
公开(公告)号：WO2017073040A1
公开(公告)日：2017-05-04
申请号：PCT/JP2016/004668
申请日：2016-10-24
申请人：千代田化工建設株式会社
发明人：蒲原　正志 , 加藤　ロージェ , 土井　範彦 , 有馬　大介 , 尾▲崎▼　雄飛
IPC分类号： F03G6/00 , F01K7/22 , F01K27/02 , F22G5/12 , F24J2/42
CPC分类号： F01K7/22 , F01K27/02 , F03G6/00 , F22G5/12 , F24S90/00 , Y02E10/46
摘要：低圧タービンの排気温度の上昇を抑制し耐久性を向上させると共に、高効率な発電が達成できる太陽熱発電装置の制御方法および太陽熱発電装置を提供する。溶融塩を過熱器３２および再熱器３４にそれぞれ供給し、高圧タービン３６および低圧タービン３８によって電力を生成する太陽熱発電装置１００が、所定の割合以下の負荷である低負荷運転のとき、前記低圧タービン３８に供給される再熱蒸気の温度を検出し、再熱器３４に供給する前記溶融塩の量Ｍｒを制御し、前記再熱蒸気の温度が４５０℃以下となるようにする。
摘要翻译：原因
提高低压涡轮的排气温度的抑制耐久性增加，提供一种控制方法和太阳能发电机太阳能发电装置高度，可以实现高效的发电。熔融盐供给到过热器32和再热器34，太阳能发电装置100中，通过高压涡轮机36和低压涡轮机38产生的功率，在低负荷运行，其是负载的预定百分比以下时，低压检测供给到涡轮38，被供给至所述再热器34中的熔融盐的量先生的再热蒸汽的温度被制成为450℃以下的控制的再热蒸汽的温度。

10. 发明申请

WO2016195022A1 熱利用装置审中-公开
标题翻译：热利用装置
公开(公告)号：WO2016195022A1
公开(公告)日：2016-12-08
申请号：PCT/JP2016/066422
申请日：2016-06-02
申请人：サンデンホールディングス株式会社
发明人：原口　智規 , 和田　博文
IPC分类号： F01K13/00 , F01D25/00 , F01K27/02
CPC分类号： F01D25/00 , F01K13/00 , F01K27/02
摘要：【課題】メンテナンス性、組立性、及び信頼性を向上しながら、より一層の小型化を実現することができる熱利用装置を提供する。【解決手段】ランキン回路（２）と、ランキン回路が収容される筐体（４）とを備え、蒸発器（８）は、一対の第１入出口フランジ（２６ａ、２６ｂ）を有する蒸発器正面（８ａ）、一対の第２入出口フランジ（２８ａ、２８ｂ）を有する蒸発器背面（８ｂ）、及び、凝縮器（１２）に対向する蒸発器対向面（８ｃ）を有し、凝縮器は、一対の第３入出口フランジ（３０ａ、３０ｂ）を有する凝縮器正面（１２ａ）、一対の第４入出口フランジ８３２ａ、３２ｂ）を有する凝縮器背面（１２ｂ）、及び、蒸発器対向面に対向する凝縮器対向面（１２ｃ）を有し、蒸発器及び凝縮器は、筐体内において、蒸発器正面及び凝縮器正面、蒸発器背面及び凝縮器背面がそれぞれ同じ側に向けて配置されている。
摘要翻译： [问题]提供一种能够进一步减小尺寸的热利用装置，同时提高维护的便利性，易于组装和可靠性。 [解决方案]该热利用装置设有兰金电路（2）和容纳兰金电路（2）的外壳（4）。蒸发器（8）具有包括一对第一入口/出口凸缘（26a，26b）的蒸发器前表面（8a），包括一对第二入口/出口凸缘（28a，28b）的蒸发器后表面（8b）和与冷凝器（12）相对的蒸发器相对表面（8c）。冷凝器具有包括一对第三入口/出口凸缘（30a，30b）的冷凝器前表面（12a），包括一对第四入口/出口凸缘（32a，32b）的冷凝器后表面（12b）和冷凝器相反的表面（12c）与蒸发器相对表面相对。蒸发器和冷凝器设置在壳体中，蒸发器前表面和冷凝器前表面彼此面对同一侧，并且蒸发器后表面和冷凝器后表面彼此面对同一侧。

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