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公开(公告)号:US20140246166A1
公开(公告)日:2014-09-04
申请号:US14128582
申请日:2011-07-01
申请人: Baard Kaasa , Bernt Henning Rusten , Arne Olav Fredheim , Knut Arild Marak , Gunleiv Skofteland
发明人: Baard Kaasa , Bernt Henning Rusten , Arne Olav Fredheim , Knut Arild Marak , Gunleiv Skofteland
IPC分类号: F24J3/08
摘要: The invention concerns a subsea heat exchanger for cooling or heating a hydrocarbon-containing fluid, said heat exchanger comprising: a convection section enclosed by a shell or enclosure comprising: one or more heat exchanging fluid inlet(s) and outlet(s); one or more hydrocarbon-containing fluid inlet(s) and outlet(s); and one or more fluid carrying convection tube(s) adapted for heat transfer between the hydrocarbon-containing fluid on the inside of the tube(s) and a surrounding heat exchanging fluid on the opposite side of the tube(s), wherein the heat exchanger is provided with one or more flow regulating device(s) for controlling the hydrocarbon-containing fluid outlet temperature, wherein the heat exchanging fluid circulates in a closed circuit for heat transfer both with said hydrocarbon-containing fluid and with surrounding sea water on the outside of the enclosure. The invention also concerns a method for subsea cooling or heating of a hydrocarbon containing fluid.
摘要翻译: 本发明涉及一种用于冷却或加热含烃流体的海底热交换器,所述热交换器包括:由壳体或外壳封闭的对流段,包括:一个或多个热交换流体入口和出口; 一个或多个含烃流体入口和出口; 以及适于在所述管的内侧上的含烃流体与所述管的相对侧上的周围热交换流体之间的热传递的一个或多个流体承载对流管,其中所述热量 交换器设置有用于控制含烃流体出口温度的一个或多个流量调节装置,其中热交换流体在闭合回路中循环,以便与所述含烃流体和周围的海水 在外壳外面。 本发明还涉及一种用于海底冷却或加热含烃流体的方法。
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公开(公告)号:US09950293B2
公开(公告)日:2018-04-24
申请号:US14130393
申请日:2011-07-01
CPC分类号: B01D53/265 , B01D2256/245 , C10L3/106 , C10L3/107
摘要: The present invention concerns a method for lowering the water dew point subsea in a produced multiphase hydrocarbon fluid stream containing water, the method comprising the steps of: separating (10) the hydrocarbon fluid stream (1) into a liquid phase (3) and a first gas phase (2); cooling (20) the first gas phase in a controlled manner to knock out water or condensing water and optionally other condensates while keeping the fluid above a hydrate formation temperature thereof; separating off condensed liquids (6) and a second gas phase; wherein the second gas phase (8) has a water dew point which is lower than that of the initial multiphase hydrocarbon fluid stream. The invention also concerns a system for lowering the water dew point subsea.
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公开(公告)号:US10317109B2
公开(公告)日:2019-06-11
申请号:US14128582
申请日:2011-07-01
申请人: Baard Kaasa , Bernt Henning Rusten , Arne Olav Fredheim , Knut Arild Maråk , Gunleiv Skofteland
发明人: Baard Kaasa , Bernt Henning Rusten , Arne Olav Fredheim , Knut Arild Maråk , Gunleiv Skofteland
摘要: A subsea heat exchanger for cooling or heating a hydrocarbon-containing fluid includes a convection section enclosed by a shell or enclosure comprising, one or more heat exchanging fluid inlet(s) and outlet(s), one or more hydrocarbon-containing fluid inlet(s) and outlet(s), and one or more fluid carrying convection tube(s) adapted for heat transfer between the hydrocarbon-containing fluid on the inside of the tube(s) and a surrounding heat exchanging fluid on the opposite side of the tube(s). The heat exchanger also includes one or more flow regulating device(s) for controlling the hydrocarbon-containing fluid outlet temperature. The heat exchanging fluid circulates in a closed circuit for heat transfer both with said hydrocarbon-containing fluid and with surrounding sea water on the outside of the enclosure.
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4.发明申请公开(公告)号:US20140318737A1
公开(公告)日:2014-10-30
申请号:US14130284
申请日:2011-07-01
IPC分类号: B01D19/00
CPC分类号: B01D19/0021 , F28D1/022 , F28D1/0472 , F28F1/006 , F28F9/0265 , F28F9/0282 , F28F27/00
摘要: The invention relates to a multi-phase distribution system, a sub sea heat exchanger provided with such a multi-phase distribution system, the use of such a multi-phase distribution system and a method of temperature control for hydrocarbons. The invention provides an improved control over multi-phase mixtures comprising hydrocarbons and improvements in the controlling of heat exchanging processes.
摘要翻译: 本发明涉及一种多相分配系统,具有这种多相分配系统的副海式热交换器,这种多相分配系统的使用和碳氢化合物的温度控制方法。 本发明提供了对包含烃的多相混合物的改进的控制和对热交换过程的控制的改进。
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公开(公告)号:US09636606B2
公开(公告)日:2017-05-02
申请号:US14130284
申请日:2011-07-01
CPC分类号: B01D19/0021 , F28D1/022 , F28D1/0472 , F28F1/006 , F28F9/0265 , F28F9/0282 , F28F27/00
摘要: The invention relates to a multi-phase distribution system, a sub sea heat exchanger provided with such a multi-phase distribution system, the use of such a multi-phase distribution system and a method of temperature control for hydrocarbons. The invention provides an improved control over multi-phase mixtures comprising hydrocarbons and improvements in the controlling of heat exchanging processes.
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6.发明申请公开(公告)号:US20140157658A1
公开(公告)日:2014-06-12
申请号:US14130393
申请日:2011-07-01
CPC分类号: B01D53/265 , B01D2256/245 , C10L3/106 , C10L3/107
摘要: The present invention concerns a method for lowering the water dew point subsea in a produced multiphase hydrocarbon fluid stream containing water, the method comprising the steps of: separating (10) the hydrocarbon fluid stream (1) into a liquid phase (3) and a first gas phase (2); cooling (20) the first gas phase in a controlled manner to knock out water or condensing water and optionally other condensates while keeping the fluid above a hydrate formation temperature thereof; separating off condensed liquids (6) and a second gas phase; wherein the second gas phase (8) has a water dew point which is lower than that of the initial multiphase hydrocarbon fluid stream. The invention also concerns a system for lowering the water dew point subsea.
摘要翻译: 本发明涉及一种用于降低生产的含水多相烃流体流中的水露点海底的方法,该方法包括以下步骤:将烃流体流(1)分离成液相(3)和 第一气相(2); 以受控的方式冷却(20)第一气相以在保持流体高于其水合物形成温度的同时敲除水或冷凝水和任选的其它冷凝物; 分离冷凝液体(6)和第二气相; 其中所述第二气相(8)的水露点低于所述初始多相烃流体流的水露点。 本发明还涉及降低水露点海底的系统。
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公开(公告)号:US20080006053A1
公开(公告)日:2008-01-10
申请号:US10573213
申请日:2004-09-23
申请人: Heinz Bauer , Hubert Franke , Rainer Sapper , Marc Schier , Manfred Bolt , Jostein Pettersen , Arne Olav Fredheim , Pentti Paurola
发明人: Heinz Bauer , Hubert Franke , Rainer Sapper , Marc Schier , Manfred Bolt , Jostein Pettersen , Arne Olav Fredheim , Pentti Paurola
IPC分类号: F25J1/02
CPC分类号: F25J1/0052 , F25B1/10 , F25B5/02 , F25B9/008 , F25B2309/06 , F25B2400/13 , F25J1/0022 , F25J1/0095 , F25J1/0217 , F25J1/0218 , F25J1/0278 , F25J1/0279 , F25J1/0283 , F25J1/0292 , F25J1/0295 , F25J1/0296 , F25J1/0297 , F25J2220/64
摘要: A method of liquefying a hydrocarbon-rich gas, wherein the gas flows through a cascade of three refrigeration stages, each stage comprising a refrigerant circuit and a compressor, wherein at least part of the flow of refrigerant from the second circuit is used for the pre-cooling of the hydrocarbon rich gas in the first refrigeration stage. This balances the load on each of the compressors. By standardizing the drive units and compressors of the three coolant circuits, it is possible to maximize the attainable liquefaction capacity of the liquefaction process using tried-and-trusted drive units and compressors respectively. This method can be applied to mixed refrigerant cascades and circuits with a carbon dioxide pre-cooling circuit. This latter option has benefits for offshore use where large amounts of hydrocarbons are undesirable.
摘要翻译: 一种液化富烃气体的方法,其中气体流过三个制冷级的级联,每级包括制冷剂回路和压缩机,其中来自第二回路的制冷剂流的至少一部分用于预先 在第一制冷级中冷却富含烃的气体。 这平衡了每台压缩机的负载。 通过对三个冷却剂回路的驱动单元和压缩机进行标准化,可以分别使用经过验证的驱动单元和压缩机来最大化液化过程的可达到的液化能力。 该方法可应用于具有二氧化碳预冷回路的混合制冷剂级联和回路。 后一种选择对于海水使用有益,其中大量的烃是不希望的。
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公开(公告)号:US6003603A
公开(公告)日:1999-12-21
申请号:US849346
申请日:1997-08-11
申请人: Kare Breivik , Arne Olav Fredheim , Pentti Paurola
发明人: Kare Breivik , Arne Olav Fredheim , Pentti Paurola
CPC分类号: F25J1/0212 , B63B21/508 , B63B22/023 , B63B22/026 , F25J1/0022 , F25J1/0035 , F25J1/005 , F25J1/0052 , F25J1/0072 , F25J1/0087 , F25J1/0097 , F25J1/0204 , F25J1/0265 , F25J1/0278 , B63B2022/028 , F25J2205/04 , F25J2220/62 , F25J2220/64 , F25J2240/40 , F25J2290/60
摘要: A method and a system for offshore production of liquefied natural gas, wherein natural gas is supplied from an underground source to a field installation for gas treatment. The gas is transferred in compressed form from the field installation to an LNG tanker. The transfer takes place via a pipeline surrounded by sea water. The compressed gas is supplied to a conversion plant which is provided on the LNG tanker and is arranged to convert at least a part of the gas to liquefied form, and the liquified gas is transferred to storage tanks on board the tanker. When the storage tanks on the LNG tanker are filled up, the pipeline is disconnected from the LNG tanker and connected to another, similar tanker. The pipeline is permanently connected to a submerged buoy which is arranged for introduction and releasable securement in a submerged downwardly open receiving space in the tanker, and which is provided with a swivel unit for transfer of gas under a high pressure.
摘要翻译: PCT No.PCT / NO95 / 00227 Sec。 371日期1997年8月11日 102(e)日期1997年8月11日PCT提交1995年12月8日PCT公布。 公开号WO96 / 17777 日期1996年6月13日一种用于离岸生产液化天然气的方法和系统,其中将天然气从地下源供应到用于气体处理的现场设备。 气体以压缩形式从现场安装转移到LNG罐车。 转运通过海水围拢的管道进行。 将压缩气体供给到设置在LNG罐车上的转炉装置,并且将至少一部分气体转化为液化形式,将液化气体转移到油罐车上的储罐中。 当液化天然气罐车上的储罐被填满时,管道与LNG罐车断开连接,并连接到另一个类似的油罐车。 该管道永久地连接到浸没式浮标,其被设置成用于在油罐车中的浸没的向下开放的接收空间中引入和释放固定,并且设置有用于在高压下传送气体的旋转单元。
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公开(公告)号:US06334334B1
公开(公告)日:2002-01-01
申请号:US09629089
申请日:2000-07-31
申请人: Rudolf Stockmann , Manfred Bölt , Manfred Steinbauer , Christian Pfeiffer , Pentti Paurola , Wolfgang Förg , Arne Olav Fredheim , Oystein Sorensen
发明人: Rudolf Stockmann , Manfred Bölt , Manfred Steinbauer , Christian Pfeiffer , Pentti Paurola , Wolfgang Förg , Arne Olav Fredheim , Oystein Sorensen
IPC分类号: F25J100
CPC分类号: F25J1/0291 , C09K5/04 , C09K5/042 , C09K2205/132 , F25B9/006 , F25J1/0022 , F25J1/0042 , F25J1/0055 , F25J1/0057 , F25J1/0092 , F25J1/0212 , F25J2240/40
摘要: In the liquefaction of a hydrocarbon by indirect heat exchange with the refrigerant mixture of a refrigerant mixture cycle, the refrigerant mixture being compressed in multiple stages, the compressed refrigerant mixture (23) is at least partially condensed (E4) downstream of the penultimate compressor stage and is fractionated (D4) into a higher-boiling liquid fraction (26) and a lower-boiling gas fraction (24). The lower-boiling gas fraction (24) is compressed to the final pressure, partially condensed (E5) and fractionated (D5) into a lower-boiling gas fraction (10) and a higher-boiling liquid fraction (27). The higher-boiling liquid fraction (27) is added to the partially condensed refrigerant mixture stream (23), and the gas fraction (10) forms the lower-boiling refrigerant mixture fraction and the liquid fraction (26) forms the higher boiling refrigerant mixture fraction of the refrigerant mixture cycle. Alternatively, the compressed refrigerant mixture (20, 31, 34) can be partially condensed (E3, E4, E5) after each compressor stage and fractionated in each case into a lower-boiling gas fraction (21, 32, 10) and a higher-boiling liquid fraction (30, 33, 35). Only the gas fraction (21, 32) from the partial condensation (E3, E4) in each case is further compressed and the liquid fractions (33, 35) from the second fractionation (D4, D5) are added to the partially condensed stream (20) from the first compressor stage upstream of its fractionation (D3). The gas fraction (10) from the final fractionation (D5) forms the lower-boiling refrigerant mixture fraction and the liquid fraction (30) from the first fractionation (D3) forms the higher-boiling refrigerant mixture fraction of the refrigerant mixture cycle.
摘要翻译: 在通过与制冷剂混合循环的制冷剂混合物间接热交换的烃液化中,制冷剂混合物被多级压缩,压缩的制冷剂混合物(23)在倒数第二个压缩机级的下游至少部分地冷凝(E4) 并将其分馏成高沸点液体馏分(26)和低沸点气体馏分(24)。 将低沸点气体馏分(24)压缩至最终压力,部分冷凝(E5)并分馏(D5)成低沸点气体馏分(10)和较高沸点液体馏分(27)。 将较高沸点的液体馏分(27)加入到部分冷凝的制冷剂混合物流(23)中,并且气体馏分(10)形成低沸点制冷剂混合物馏分,液体馏分(26)形成较高沸点的制冷剂混合物 制冷剂混合循环的分数。 或者,压缩的制冷剂混合物(20,31,34)可以在每个压缩机级之后被部分冷凝(E3,E4,E5),并且在每种情况下分馏成低沸点气体馏分(21,32,10)和更高的 沸腾的液体馏分(30,33,35)。 在每种情况下,只有来自部分冷凝(E3,E4)的气体馏分(21,32)被进一步压缩,并且将来自第二分馏(D4,D5)的液体馏分(33,35)加入到部分冷凝的流中 20)从其分馏(D3)上游的第一压缩机级。 来自最终分馏(D5)的气体馏分(10)形成低沸点制冷剂混合物馏分,来自第一馏分(D3)的液体馏分(30)形成制冷剂混合循环的较高沸点的制冷剂混合物馏分。
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公开(公告)号:US06253574B1
公开(公告)日:2001-07-03
申请号:US09403103
申请日:2000-03-24
申请人: Rudolf Stockmann , Wolfgang Forg , Manfred Bolt , Manfred Steinbauer , Christian Pfeiffer , Pentti Paurola , Arne Olav Fredheim , Oystein Sorensen
发明人: Rudolf Stockmann , Wolfgang Forg , Manfred Bolt , Manfred Steinbauer , Christian Pfeiffer , Pentti Paurola , Arne Olav Fredheim , Oystein Sorensen
IPC分类号: F25J100
CPC分类号: F25J3/0257 , F25J1/0022 , F25J1/004 , F25J1/0052 , F25J1/0055 , F25J1/0217 , F25J1/0238 , F25J1/0248 , F25J1/0262 , F25J1/0264 , F25J1/0283 , F25J1/029 , F25J1/0291 , F25J1/0292 , F25J1/0294 , F25J3/0209 , F25J3/0233 , F25J2200/02 , F25J2200/70 , F25J2210/06 , F25J2215/04 , F25J2220/64 , F25J2290/32 , F25J2290/62 , Y10S62/913
摘要: The invention relates to a method for liquefying a stream rich in hydrocarbons, especially a stream of natural gas, by the indirect exchange of heat with the refrigerants in a closed-circuit cascade of mixed refrigerants. According to the invention, said closed-circuit cascade of mixed refrigerants consists of at least 3 circuits of mixed refrigerants, with each circuit comprising different refrigerants. The first of the three mixed refrigerant circuits is used for pre-cooling (E1), the second for liquefying E2), and the third for super-cooling (E3) the hydrocarbon-rich stream (1) to be liquefied. The method provided for in the invention reduces specific energy consumption and investment costs since the three circuits of mixed refrigerants are or can be optimally adjusted to the enthalpy temperature curves of the hydrocarbon-rich stream to be liquefied and the refrigerant mixtures.
摘要翻译: 本发明涉及一种通过在混合制冷剂的闭路级联中间歇地与制冷剂交换来液化富含烃,特别是天然气流的方法。 根据本发明,所述混合制冷剂的闭路级联由至少3个混合制冷剂回路组成,每个回路包括不同的制冷剂。 三个混合制冷剂回路中的第一个用于预冷(E1),第二个用于液化E2),第三个用于超冷却(E3)待液化的富烃流(1)。 本发明提供的方法降低了比能耗和投资成本,因为混合制冷剂的三个回路可以被最佳地调整为要液化的富烃流的焓温曲线和制冷剂混合物。
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