• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention denominated "thermoelectric plant fed with environmental heat and cooled by regasification of the lng", is the use of the regasification process of the lng to be used as a cold focus of a thermoelectric plant. It consists of two rankine cycles and a direct expansion ng turbogenerator, connected in cascade with respect to the cold source formed by the lng regasification process. This plant is fed with heat from both the industry and the environmental environment based on seawater, rivers, lakes or ambient air. The rankine cycles operate with argon and methane respectively, while the direct expansion turbine of gn operates with regasified natural gas (gn) for consumption. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2580879A1
    申请号:ES201500156
    申请日:2015-02-26
    公开日:2016-08-29
    发明作者:Ramón FERREIRO GARCÍA;Javier ROMERO GÓMEZ;José CARBIA CARRIL;Manuel ROMERO GÓMEZ
    申请人:Universidade da Coruna;
    IPC主号:
    专利说明:

    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    DESCRIPTION
    Thermoelectric plant fed with ambient heat and cooled by regasification of liquefied natural gas.
    Technical field of the invention
    The present thermoelectric plant object of the invention belongs to the technical field of the production of electric energy with ambient heat from seawater, rivers, lakes or atmospheric air and that uses the process of regasification of liquefied natural gas (LNG) as a medium Cooling.
    Objective of the invention
    The objective of the present invention called Thermoelectric Plant fed with ambient heat and cooled by LNG regasification, is the use of the LNG regasification process to be used as a cold source of a thermoelectric plant fed with heat from the environment, including residual heat, or heat of ambient water or air.
    Background of the invention
    Conventional LNG regasification plants use various configurations to produce electricity using the cold available during their regasification process. Thus, the LNG regasification plants equipped with the electric heat production system with ambient heat, detected after a tracking of the databases in the regasification field are:
    EP2390745 A2, US4995234, US5457951, US6089022, US6367258 and US7493763.
    The invention called thermoelectric plant fed with ambient heat and cooled by regasification of LNG differs from those mentioned in both physical configuration and thermal fluids. In the current state of the technology there are no known LNG regasification plants that produce electricity with ambient heat, consisting of two Rankine cycles and a direct expansion GN turbogenerator connected in cascade with respect to the cold source formed by the process of regasification.
    Brief Description of the Invention
    The thermoelectric plant fed with ambient heat and cooled by LNG regasification consists of two Rankine cycles and a direct expansion GN turbogenerator, cascaded with respect to the cold source formed by the LNG regasification process, using heat from both of the industry as of the environmental environment based on seawater, rivers, lakes or ambient air. Rankine cycles operate with argon and methane respectively, while the GN direct expansion turbine operates with natural gas (GN) regasified and destined for consumption.
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    This section describes, by way of illustration and not limitation, the components that constitute the thermoelectric plant fed with ambient heat and cooled by LNG regasification to facilitate the understanding of the invention, where reference is made to the following figures:
    Figure 1. Shows the scheme of the thermoelectric plant fed with ambient heat and cooled by regasification of LNG, composed of the following components:
    1. LNG warehouse
    2. LNG supply pump
    3. argon Rankine cycle capacitor
    4. argon Rankine cycle feed pump
    5. argon Rankine cycle heat regenerator
    6. argon Rankine cycle high pressure turbine
    7. argon Rankine low pressure turbine
    8. Rankine methane cycle condenser
    9. methane Rankine cycle feed pump
    10. Methane Rankine cycle heat regenerator
    11. high pressure turbine of the Rankine methane cycle
    12. Low pressure turbine of the Rankine methane cycle
    13. Argon and methane heater with ambient heat
    14. GN heater with ambient heat
    21. 1st stage of the GN direct expansion turbine
    22. 2nd stage of the GN direct expansion turbine
    23. 3rd stage of the GN direct expansion turbine
    24. 4th stage of the GN direct expansion turbine
    31. argon and methane Rankine cycles electric generator
    32. GN direct expansion turbine electric generator
    33. GN distribution line to users.
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    The thermoelectric plant fed with ambient heat and cooled by regasification of LNG, consists of two Rankine cycles and a direct expansion GN turbogenerator connected in cascade with respect to the cold focus formed by the LNG regasification process where,
    argon Rankine cycle consists of:
    - argon capacitor (3) which partially uses the end of the process
    regasification of the LNG,
    - argon Rankine cycle feed pump (4)
    - argon Rankine cycle heat regenerator (5)
    - argon Rankine cycle high pressure turbine (6)
    - low pressure turbine of the Rankine cycle of argon (7) and where, the Rankine cycle of methane consists of:
    - argon condenser (8) which partially uses the cold process
    regasification of the LNG,
    - methane Rankine cycle feed pump (8)
    - argon Rankine cycle heat regenerator (9)
    - argon Rankine cycle high pressure turbine (10)
    - low pressure turbine of the Argon Rankine cycle (11)
    and where, the Rankine argon and methane cycles absorb heat from the heater (13) fed with ambient heat
    and where, the turbines of the Rankine cycles of argon and methane (6), (7), (11) and (12), act on the generator (31) by means of a common axis
    and where, the GN direct expansion turbine consists of four expansion stages (21), (22), (23) and (24) with intermediate reheating
    and where, the GN direct expansion turbine absorbs heat from the heater (14) fed with ambient heat
    and where, the GN direct expansion turbine formed by steps (21), (22), (23) and (24) acts on the generator (32) by means of a common axis.
    The thermoelectric plant fed with ambient heat and cooled by the regasification of LNG operates by heating and regasifying the LNG, such that the LNG stored in the LNG store (1) is pumped at high pressure and temperature
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    Approximately -162 ° C by the GN distribution line to users (33), using the LNG supply pump (2). It crosses the condenser of the Rankine cycle of argon (3) absorbing heat and condensing the argon, then crosses the condenser of the Rankine cycle of methane (8) absorbing heat and condensing the methane, to pass to the heater (14), where it is heated and expanded in the GN direct expansion turbine equipped with four stages with intermediate reheating, finally being evacuated to the GN distribution line to users (33) at the operating pressure.
    Description of the preferred embodiment of the invention
    The preferred embodiment of the thermoelectric plant fed with ambient heat and cooled by LNG regasification is referred to Figure 1, consisting of:
    a) Rankine argon cycle formed by:
    - argon condenser (3) which partially uses the cold of the LNG regasification process
    - argon Rankine cycle feed pump (4)
    - argon Rankine cycle heat regenerator (5)
    - argon Rankine cycle high pressure turbine (6)
    - low pressure turbine of the Argon Rankine cycle (7)
    b) the Rankine cycle of methane formed by:
    - methane condenser (8) which partially uses the flushing of the LNG regasification process
    - methane Rankine cycle feed pump (8)
    - heat regenerator of the Rankine methane cycle (9)
    - high pressure turbine of the Rankine methane cycle (10)
    - low pressure turbine of the Rankine methane cycle (11) and where,
    Rankine argon and methane cycles absorb heat from the heater (13) fed with ambient heat
    and where, the turbines of the Rankine cycles of argon and methane (6), (7), (11) and (12) act on the generator (31) by means of a common axis.
    c) the GN direct expansion turbine equipped with four expansion stages (21), (22), (23) and (24) with intermediate reheating
    and where, the GN direct expansion turbine absorbs heat from the heater (14) fed with ambient heat
    and where, the GN direct expansion turbine formed by steps (21), (22), (23) and 5 (24) acts on the generator (32) by means of a common axis.
    权利要求:
    Claims (2)
    [1]
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    1. Thermoelectric plant fed with ambient heat and cooled by regasification of LNG which is constituted by:
    a) a Rankine argon cycle consisting of:
    - argon condenser (3) which partially uses the cold of the LNG regasification process
    - argon Rankine cycle feed pump (4)
    - argon Rankine cycle heat regenerator (5)
    - argon Rankine cycle high pressure turbine (6)
    - low pressure turbine of the Argon Rankine cycle (7)
    b) a Rankine cycle of methane consisting of:
    - methane condenser (8) which partially uses the flushing of the LNG regasification process,
    - methane Rankine cycle feed pump (8)
    - heat regenerator of the Rankine methane cycle (9)
    - high pressure turbine of the Rankine methane cycle (10)
    - low pressure turbine of the Rankine methane cycle (11)
    and where, the Rankine argon and methane cycles absorb heat from the heater (13) fed with ambient heat
    and where, the turbines of the Rankine cycles of argon and methane (6), (7), (11) and (12) act on the generator (31) by means of a common axis.
    c) the GN direct expansion turbine equipped with four expansion stages (21), (22),
    (23) and (24) with intermediate reheating
    and where, the GN direct expansion turbine absorbs heat from the heater (14) fed with ambient heat
    and where, the GN direct expansion turbine formed by stages (21), (22), (23) and
    (24) acts on the generator (32) by means of a common axis.
    [2]
    2. Operation procedure of the thermoelectric plant fed with ambient heat and cooled by LNG regasification according to the first claim, characterized in that it operates by heating and regasifying the LNG in such a way that the LNG stored in the LNG store (1) is pumped at high pressure and approximate temperature of -162 ° C by the line of distribution of GN to users (33), by means of the pump
    LNG supply (2). It crosses the condenser of the Rankine cycle of argon (3) absorbing heat and condensing the argon, then crosses the condenser of the Rankine cycle of methane (8) absorbing heat and condensing the methane, to pass to the heater (14), where it is heated and expanded in the 5 GN direct expansion turbine equipped with four stages with intermediate reheating, finally being evacuated to the GN distribution line to users (33) at the operating pressure.
    类似技术:
    公开号 | 公开日 | 专利标题
    Gómez et al.2014|Review of thermal cycles exploiting the exergy of liquefied natural gas in the regasification process
    AR049718A1|2006-08-30|CONFIGURATIONS AND METHODS FOR THE GENERATION OF ELECTRICAL ENERGY BY INTEGRATED LNG REGASIFICATION |
    PE20041074A1|2005-01-22|PRODUCTION OF LIQUEFIED NATURAL GAS | IN CRYOGENIC PLANTS FOR NATURAL GAS PROCESSING
    ES2708975T3|2019-04-12|Exhaust gas cooling system of a gas turbine
    GB920314A|1963-03-06|Heating cold fluids with production of energy
    ES2121608T3|1998-12-01|PERFECTED FACILITY PRODUCER OF COMBINED CYCLES ENERGY SUPPLIED BY LIQUEFIED NATURAL GAS.
    ES2428619R1|2014-07-03|LNG ENERGY AND REGASIFICATION SYSTEM
    US20120000201A1|2012-01-05|System and method for generating and storing transient integrated organic rankine cycle energy
    ES2580879B2|2017-02-08|Thermoelectric plant fed with ambient heat and cooled by regasification of liquefied natural gas
    CO6150051A1|2010-04-20|METHOD FOR LIQUID NATURAL GAS PRODUCTION
    ES2692118T3|2018-11-30|Electric energy storage and discharge system
    ES2595552B1|2017-10-11|HIGH EFFICIENCY SOLAR POWER PLANT AND ITS OPERATING PROCEDURE
    US10329960B2|2019-06-25|Method and apparatus for generating electricity using a nuclear power plant
    ES2599357B2|2017-06-28|Rankine three-cycle thermoelectric plant and a direct expansion turbine whose cold focus comes from the regasification of liquefied natural gas
    ES2649166T3|2018-01-10|Energy Saving Device
    ES2628616T3|2017-08-03|Apparatus and process for power generation using organic Rankine cycle
    Wojcieszak et al.2017|Investigation of a working fluid for cryogenic energy storage systems
    ES2479240B2|2015-02-05|Combined cycle with closed Brayton cycle, sub-environmental cold focus, with high polytropic coefficient work fluids
    ES2608344B1|2018-04-02|Thermal plant with LNG regasification and CO2 capture
    ES2436717B1|2014-11-14|Serial rankine two-cycle thermal plant for liquefied natural gas regasification facilities
    ES2601582B1|2017-12-12|Thermodynamic system for electric power generation.
    Henao Barraza et al.2020|Diseño de una unidad de recuperación de calor basada en un ciclo rankine orgánico para Termonorte Axia
    ES2436723B1|2015-01-05|Thermal plant of a brayton cycle and a series rankine cycle for liquefied natural gas regasification facilities
    CN110685761A|2020-01-14|Staged evaporation combined cycle power device
    CL2018000294A1|2018-07-13|Method to adjust steam generator pressure in solar power plant
    同族专利:
    公开号 | 公开日
    ES2580879B2|2017-02-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4444015A|1981-01-27|1984-04-24|Chiyoda Chemical Engineering & Construction Co., Ltd.|Method for recovering power according to a cascaded Rankine cycle by gasifying liquefied natural gas and utilizing the cold potential|
    JP2000204909A|1999-01-11|2000-07-25|Osaka Gas Co Ltd|Lng cryogenic power generation system|
    WO2012104202A1|2011-02-01|2012-08-09|Alstom Technology Ltd|Combined cycle power plant with co2 capture plant|
    US20130133327A1|2011-11-15|2013-05-30|Shell Oil Company|System and process for generation of electrical power|
    ES2436717A2|2012-06-29|2014-01-03|Universidade Da Coruña|Two rowline series thermal plant in series for liquefied natural gas regasification plants |
    CN203743849U|2014-03-29|2014-07-30|辽宁石油化工大学|Device for generating and collecting carbon dioxide by utilizing liquefied natural gas cold energy|CN106939802A|2017-04-12|2017-07-11|上海交通大学|Generated electricity and remaining cold output system and method using the mixed working fluid step of LNG cold energy|
    法律状态:
    2017-02-08| FG2A| Definitive protection|Ref document number: 2580879 Country of ref document: ES Kind code of ref document: B2 Effective date: 20170208 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201500156A|ES2580879B2|2015-02-26|2015-02-26|Thermoelectric plant fed with ambient heat and cooled by regasification of liquefied natural gas|ES201500156A| ES2580879B2|2015-02-26|2015-02-26|Thermoelectric plant fed with ambient heat and cooled by regasification of liquefied natural gas|
    [返回顶部]