| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | METHOD AND APPARATUS FOR A MULTI PURPOSE DATA AND ENGINEERING SYSTEM 205 | PCT/SG2006000262 | 2006-09-08 | WO2007037763A2 | 2007-04-05 | GUEH HOW KIAP |
| The present invention relates to a method of a manufacturing facility fitted and equipped onboard a marine vessel, the vessel first taking in seawater to fill the vessel ballast tanks using the vessel's sea chests, ensuring a reasonable stability factor to allow for continuous and safe operation of the manufacturing facility. | ||||||
| 122 | APPARATUS FOR AUTOMATICALLY MANAGING BALLAST WATER OF SHIP, AND OPERATION METHOD THEREFOR | PCT/KR2016012625 | 2016-11-04 | WO2017078445A9 | 2017-07-27 | KIM YONG-KYUNG |
| The present invention relates to an apparatus for automatically managing the ballast water of a dual-hulled ship and, more specifically, to an apparatus for automatically managing the ballast water of a ship, the apparatus dividing the structure of an integrated ballast water tank into ballast water tanks of a multi-layered structure, and filling each ballast water tank with seawater, so as to perform the original function thereof of maintaining the waterline by means of the ballast water, and having a structure and a device so as to utilize the seawater, used as cooling water, residential water, water for miscellaneous use, and the like, as the seawater of the ballast water tanks, thereby integrally managing the usage and management of the seawater of the ship, and continuously and successively changing the seawater of the ballast water tanks while the ship is sailing. | ||||||
| 123 | SEAWATER DESALINATION PLANT TO BE INSTALLED ON A BARGE, AND METHOD FOR INSTALLING SAME | PCT/KR2010003224 | 2010-05-24 | WO2010137827A3 | 2011-03-24 | KWON HYUK; LEE EUN BAE; KIM HYUN JIN; AHN SUNG IL |
| The invention relates to a seawater desalination plant to be installed atop a barge and designed to float on the sea surface in order to draw seawater from the sea and to perform desalination, as well as to a method for installing a seawater desalination plant to be installed on a barge, involving loading the seawater desalination plant to be installed on a barge onto a heavy cargo transport vessel, or loading the desalination plant together with a power generation plant onto a heavy cargo transport vessel to be towed by a tugboat for installation at the seaside of a region with a water shortage or a shortage of electricity, or of an island. | ||||||
| 124 | FLOATING ON PONTOONS DESALINATING AND ELECTRICITY GENERATING TANDEM POWER PLANT | PCT/EG2010000025 | 2010-06-27 | WO2010124697A8 | 2011-01-06 | SAMAK NABII MAHMOUD TALAT WAHBA |
| This invention relates to a method for desalinating sea water bellow the pond, through freezing it to Ice and isolating the Ice in a sealed tank to melt it. Aiding colder water is pumped up from different sea depths, which reaches a temperature down to 4°C, saving freezing power and controlling the quantity of Ice produced, storing the desalinated water in the pontoons, by discharging the pontoons balance balloons from salt water - The floating power plant, synchronously generates electricity, through special circuits producing the freezing coldness, as gas/steam compression circuits and the liquid(s) pumping circuits filled completely with liquid gas or filled partially with either liquid gas or other fluids like Methanol, Ethanol..., which all produce synchronously, electricity, - The flow engines connected to a generator of the said circuits are driven only by using renewable energies, such as: 1- basically the sea water thermal temperature, to discharge the freezing coldness and/or the warmness of the pond to gain additional thermal energy from sea water 2- the temperature differences between deeper and surface sea water, to create higher pressure differences driving the flow engine of the liquid gas pumping circuits, 3- aiding other renewable energies are added cheaply driving directly the compressors of gas compression or pumps of liquid gas pumping circuits, producing freezing power and producing amplified by the sea temperature heat discharged at the pond. - The pontoons of the floating power plant have to be stabilized at sea with pillars, a.- which offers the use of wind energy, just adding fans on top of the stabilization pillars b.- The suspension energy from wave and ebb and tide motions on the pontoons, offers the use of wave energy, by adding direction unifying units to the alternate flow obtained c- If solar heat exists, it is absorbed automatically, just darkening the floor of the pond. - To maintain always the optimum speed of the generators, over produced 1- "HEAT", is saved : by the additional "accelerated evaporation" desalinating water, by lowering above the tightly sealed pond the pressure to a level below 0.9 bars and using only over produced heat in the pond (higher than 30°C), 2- "ELECTRICITY", is saved: by producing hydrogen and converting hydrogen (H2) and carbon dioxide (CO2) to liquid methanol (H3-C-OH). | ||||||
| 125 | A VESSEL ADAPTED TO BE USED AS A MOVEABLE BOTTLING PLANT FOR BOTTLING LIQUID PRODUCTS | PCT/EP2010054296 | 2010-03-31 | WO2010115800A2 | 2010-10-14 | RAGNARSSON KJARTAN; JONSSON OMAR MAR |
| This invention relates to a vessel adapted to be used as a moveable bottling plant for bottling liquid products, where means for hosting liquid products empty receptacles or ingredients adapted for producing such receptacles is provided. A communication means is provided for receiving external orders from external liquid buyer for bottling the liquid into the receptacles. A liquid bottling line is provided for bottling the liquid on board of the vessel in accordance to the received external orders. | ||||||
| 126 | AN APPARATUS FOR FILTRATION AND DISINFECTION OF SEA WATER/SHIP'S BALLAST WATER AND A METHOD THEREOF | PCT/IN2007000114 | 2007-03-20 | WO2007108012A2 | 2007-09-27 | RANADE VIVEK VINAYAK; PANDIT ANIRUDH BHALCHANDRA; ANIL AGRA CHANDRASHEKAR; SAWANT SUBHASH SHIVRAM; ILANGOVAN DANDAYUDAPANI; MADHAN RAJACHANDRAN; PILARISETTY VENKAT KRISHNAMURT |
| The invention disclosed provides an apparatus and method for filtration and disinfection of ship's ballast water, such as sea water, based on hydrodynamic cavitation. The apparatus comprises a vortex diode with a tangential entry port and an axial outlet port with single or multiple bleeding holes. The disinfected water may be re-circulated through the system for additional disinfection or released from the tank into the surrounding waterways. The disinfection of seawater/ ship's ballast water is achieved through filtration and hydrodynamic cavitation and the method does not involve use of any chemicals or any chemical reaction. The invented apparatus and method is simple, eco-friendly and can be fitted on to existing intake and discharge systems of any ship with minor modifications. It poses no risk to the health of the ship's crew unlike chemical methods and requires no special skill or additional manpower for its operation. The apparatus and method is capable of effectively sterilizing hazardous organisms contained in ballast water stored in a ballast tank. | ||||||
| 127 | SYSTEM AND METHOD FOR DESALINATION OF WATER USING A GRAPHITE FOAM MATERIAL | PCT/US2012068536 | 2012-12-07 | WO2013086388A3 | 2013-08-08 | ELLER MICHAEL R; MAURER SCOTT; NAGURNY JOHN |
| A condenser or heat exchanger includes a circulation system for moving a cooling fluid, and a graphite foam in thermal communication with the circulation system. The condenser or heat exchanger can be used to remove water, or more particularly freshwater from water vapor or steam produced from seawater. | ||||||
| 128 | FLOATING ON PONTOONS DESALINATING AND ELECTRICITY GENERATING TANDEM POWER PLANT | PCT/EG2010000025 | 2010-06-27 | WO2010124697A4 | 2011-12-01 | SAMAK NABII MAHMOUD TALAT WAHBA |
| This invention relates to a method for desalinating sea water bellow the pond, through freezing it to Ice and isolating the Ice in a sealed tank to melt it. Aiding colder water is pumped up from different sea depths, which reaches a temperature down to 4°C, saving freezing power and controlling the quantity of Ice produced, storing the desalinated water in the pontoons, by discharging the pontoons balance balloons from salt water - The floating power plant, synchronously generates electricity, through special circuits producing the freezing coldness, as gas/steam compression circuits and the liquid(s) pumping circuits filled completely with liquid gas or filled partially with either liquid gas or other fluids like Methanol, Ethanol..., which all produce synchronously, electricity, - The flow engines connected to a generator of the said circuits are driven only by using renewable energies, such as: 1- basically the sea water thermal temperature, to discharge the freezing coldness and/or the warmness of the pond to gain additional thermal energy from sea water 2- the temperature differences between deeper and surface sea water, to create higher pressure differences driving the flow engine of the liquid gas pumping circuits, 3- aiding other renewable energies are added cheaply driving directly the compressors of gas compression or pumps of liquid gas pumping circuits, producing freezing power and producing amplified by the sea temperature heat discharged at the pond. - The pontoons of the floating power plant have to be stabilized at sea with pillars, a.- which offers the use of wind energy, just adding fans on top of the stabilization pillars b.- The suspension energy from wave and ebb and tide motions on the pontoons, offers the use of wave energy, by adding direction unifying units to the alternate flow obtained c- If solar heat exists, it is absorbed automatically, just darkening the floor of the pond. - To maintain always the optimum speed of the generators, over produced 1- "HEAT", is saved : by the additional "accelerated evaporation" desalinating water, by lowering above the tightly sealed pond the pressure to a level below 0.9 bars and using only over produced heat in the pond (higher than 30°C), 2- "ELECTRICITY", is saved: by producing hydrogen and converting hydrogen (H2) and carbon dioxide (CO2) to liquid methanol (H3-C-OH). | ||||||
| 129 | APPARATUS FOR INDEPENDENT INSTANT PRODUCTION OF FRESHWATER FROM DESALINATION OF SEAWATER ABOARD SEAFARING CRAFT | PCT/IT2011000147 | 2011-05-13 | WO2011141944A2 | 2011-11-17 | BARTOLINI CARLO MARIA; COMODI GABRIELE |
| An apparatus (1) for independent instant production, aboard seafaring craft (2), of freshwater (3) through desalination of seawater (4), combining a cogenerator (5), to produce at least electrical energy (6), which comprises a Stirling engine (7) emitting exhaust heat (8); and an inverse osmosis desalination unit (9) operatively associated with the Stirling engine (7) in such a way as to receive at least its exhaust heat (8) and to preheat with it the seawater (4) entering the desalination unit. | ||||||
| 130 | INSTALLATION AND PROCEDURE FOR THE TREATMENT OF WASTE RESULTING FROM ACTIVITIES ON A SHIP | PCT/RO2009000019 | 2009-11-30 | WO2011005129A3 | 2011-11-17 | MUSCALU VASILE |
| The invention refers to a plant and a procedure for the treatment of waste resulting from the activities on a ship, leading to sea water desalination. The problem solved by the invention consists in waste treatment so that it should not be stored and discharged while stopping on shore. Installation for the treatment of waste resulting from the activities on a ship, including two vertically arranged reactors, within which some electric valves are mounted, water contains waste from the tank of reactors' chambers, to the general supply pipeline there are connected, to the upstream of electric valves, the pipelines for pushing recirculated water by pumps, sucked through the pipelines from coolers, the recirculation water pipeline from the working chamber of the second reactor is connected to a pipeline to the downstream of the cooler, so that water circulated through it and respectively through the pipeline connected to a heat exchanger or to a water desalination plant shall be passed through cooler and then introduced inserted into the general pipeline, the working chamber of the second reactor is in connection with a pipeline with an electric valve mounted on the inside, through-which the steam together with steam from a pipeline with an electric valve mounted is introduced into the blade turbine, which operates an electricity generator and from which steam passes through the heat exchanger or is conducted into the water desalination plant, the water discharged from the working chambers of the reactor is collected in a pipeline from where it is pushed by a pump through a pipeline into the tank. | ||||||
| 131 | FLOATING ON PONTOONS DESALINATING AND ELECTRICITY GENERATING TANDEM POWER PLANT | PCT/EG2010000025 | 2010-06-27 | WO2010124697A3 | 2011-09-15 | SAMAK NABII MAHMOUD TALAT WAHBA |
| This invention relates to a method for desalinating sea water bellow the pond, through freezing it to Ice and isolating the Ice in a sealed tank to melt it. Aiding colder water is pumped up from different sea depths, which reaches a temperature down to 4°C, saving freezing power and controlling the quantity of Ice produced, storing the desalinated water in the pontoons, by discharging the pontoons balance balloons from salt water - The floating power plant, synchronously generates electricity, through special circuits producing the freezing coldness, as gas/steam compression circuits and the liquid(s) pumping circuits filled completely with liquid gas or filled partially with either liquid gas or other fluids like Methanol, Ethanol..., which all produce synchronously, electricity, - The flow engines connected to a generator of the said circuits are driven only by using renewable energies, such as: 1- basically the sea water thermal temperature, to discharge the freezing coldness and/or the warmness of the pond to gain additional thermal energy from sea water 2- the temperature differences between deeper and surface sea water, to create higher pressure differences driving the flow engine of the liquid gas pumping circuits, 3- aiding other renewable energies are added cheaply driving directly the compressors of gas compression or pumps of liquid gas pumping circuits, producing freezing power and producing amplified by the sea temperature heat discharged at the pond. - The pontoons of the floating power plant have to be stabilized at sea with pillars, a.- which offers the use of wind energy, just adding fans on top of the stabilization pillars b.- The suspension energy from wave and ebb and tide motions on the pontoons, offers the use of wave energy, by adding direction unifying units to the alternate flow obtained c- If solar heat exists, it is absorbed automatically, just darkening the floor of the pond. - To maintain always the optimum speed of the generators, over produced 1- "HEAT", is saved : by the additional "accelerated evaporation" desalinating water, by lowering above the tightly sealed pond the pressure to a level below 0.9 bars and using only over produced heat in the pond (higher than 30°C), 2- "ELECTRICITY", is saved: by producing hydrogen and converting hydrogen (H2) and carbon dioxide (CO2) to liquid methanol (H3-C-OH). | ||||||
| 132 | SEAWATER DESALINATION PLANT TO BE INSTALLED ON A BARGE, AND METHOD FOR INSTALLING SAME | PCT/KR2010003224 | 2010-05-24 | WO2010137827A2 | 2010-12-02 | KWON HYUK; LEE EUN BAE; KIM HYUN JIN; AHN SUNG IL |
| The invention relates to a seawater desalination plant to be installed atop a barge and designed to float on the sea surface in order to draw seawater from the sea and to perform desalination, as well as to a method for installing a seawater desalination plant to be installed on a barge, involving loading the seawater desalination plant to be installed on a barge onto a heavy cargo transport vessel, or loading the desalination plant together with a power generation plant onto a heavy cargo transport vessel to be towed by a tugboat for installation at the seaside of a region with a water shortage or a shortage of electricity, or of an island. | ||||||
| 133 | METHOD AND APPARATUS FOR HULL INTEGRATED SEAWATER REVERSE OSMOSIS SYSTEM | PCT/SG2004000232 | 2004-08-02 | WO2005012180A3 | 2006-07-20 | GUEH HOW KIAP |
| The present invention relates to a method and apparatus for having a integrated fluid media filtration and membrane unit within the hull of a sea-bound vessel. The vessel's propulsion will drive the flow of seawater into the media filtration and membrane unit. Multiple stages of the passing of seawater via the membrane and/or a series of progressive membranes can be implemented to reduce the level of sodium chloride present in seawater to desirable specifications. | ||||||
| 134 | FRESH WATER COLLECTION SYSTEM | PCT/IL0101034 | 2001-11-06 | WO0240125A3 | 2002-09-06 | GLOZMAN VLADIMIR |
| A system for collection of precipitation on the surface of a body of water that is simple, inexpensive, and modular, making it also simple to deploy. The system includes one or more floating collectors (10) made up of a buoyant support (12), which may be flexible and inflatable or substantially rigid, and a flexible collector sheet element (15), impermeable to liquid, fastened to the support (12) which defines a partition between precipitation collected therein and the water body surface; a baffle (30) arranged in operative association with the one or more floating collectors (10) configured to prevent liquid from the body of water from entering the collector sheet element (15); and a water transfer device (25) to transfer collected precipitation from the floating collector to a water storage container, which may be on a floating platform which may be towable or self-propelled, or may be included in a fixed platform or be land based. | ||||||
| 135 | 선박의 발전 시스템 및 방법 | KR1020170049838 | 2017-04-18 | KR1020180116920A | 2018-10-26 | |
| 본발명은 LNG선으로설계된선박을 FSRU로사용가능한선박으로변경가능하도록발전용량을늘린, 선박의발전시스템및 방법에관한것이다. 본발명의일 실시예에따르면, 선박의발전시스템에있어서, 항해시프로펠러에동력을전달하는추진용엔진; 재기화시재기화장비에공급될전력을생산하는발전용엔진; 및상기추진용엔진의구동을위해설치되는부가시스템을포함하며, 상기추진용엔진과상기발전용엔진은택일적으로구동되고, 상기부가시스템은상기추진용엔진과상기발전용엔진에각각연결되어공동으로사용되는, 선박의발전시스템을제공할수 있다. | ||||||
| 136 | 즉시 부두 설비 | KR1020160059372 | 2016-05-16 | KR101836633B1 | 2018-03-09 | 이강기; 최재선; 온누리 |
| 즉시부두설비가제시된다. 즉시부두설비는선체; 상기선체를소정위치에계류시키고, 상기선체의상부에설치된적어도하나이상의크레인을이용하여선적또는하역하는부두시설; 상기선체내부에배치된발전기를통해전기를생산하여외부로공급하는발전모듈; 및상기선체내부에배치되며전기에너지또는열 에너지를이용하여해수를담수화하여외부로공급하는담수모듈을포함할수 있다. | ||||||
| 137 | 액화천연가스 운반선의 운용방법 | KR1020140182337 | 2014-12-17 | KR1020160073707A | 2016-06-27 | 박태근 |
| 본발명은액화천연가스운반선의운용방법에관한것이다. 본발명의일 측면에따르면, 액화천연가스공급처에서액화천연가스운반선의화물창에액화천연가스를적하하는단계; 상기액화천연가스운반선이상기액화천연가스수요처로이동하는단계; 상기액화천연가스수요처에서상기액화천연가스를하역하는단계; 상기액화천연가스운반선이청수수요처로이동과정에서상기액화천연가스운반선의발라스트탱크에평형수를충전한후 상기평형수를청수로전환하여상기화물창에저장하는단계; 및상기청수수요처에상기청수를공급하는단계를포함하는액화천연가스운반선의운용방법이제공될수 있다. | ||||||
| 138 | 응축수를 이용한 담수공급장치 | KR2020140006882 | 2014-09-22 | KR2020160001043U | 2016-03-31 | 김성복 |
| 응축수를이용한담수공급장치에대한고안이개시된다. 개시된고안은, 수증기를응축시켜물을발생시키는응축수발생부와; 응축수발생부에서발생된물이저장되는저장부; 및저장부에저장된물을배출시키는공급부를포함한다. | ||||||
| 139 | 해양구조물의 물공급 시스템 | KR1020140085027 | 2014-07-08 | KR1020160006295A | 2016-01-19 | 정상훈 |
| 본발명은해양구조물의물공급시스템에관한것으로서, 해양구조물의기관설치구역이나장비설치구역에적어도하나이상구비되는청수익스팬션탱크; 상기청수익스팬션탱크에저장된청수를상기기관설치구역이나상기장비설치구역을경유하도록순환시키는통로를제공하는순환배관라인; 및상기청수순환배관라인상에마련되며, 상기청수순환배관라인의부식을방지하기위한화학약품을반자동또는자동으로투입시키는화학약품도징시스템을포함하는것을특징으로한다. 본발명에따른해양구조물의물공급시스템은, 각종기관이나장비에냉각청수를공급하는청수익스팬션탱크의청수순환배관라인에화학약품도징시스템을설치함으로써, 청수의 PPM 관리를안정적으로할 수있어, 배관라인의부식및 막힘현상을방지할수 있을뿐만아니라, 청수의 PPM에관리에소요되는인력과시간을절감할수 있다. | ||||||
| 140 | 부유식 복합 플랜트 및 이의 운용 방법 | KR1020140008773 | 2014-01-24 | KR1020150088452A | 2015-08-03 | 권혁; 최정호; 김원석 |
| 부유식복합플랜트및 이의운용방법이개시된다. 본발명의부유식복합플랜트는해상에부유하는바지본체; 바지본체에마련되는복합화력발전플랜트부; 및바지본체에마련되는담수화플랜트부및 이산화탄소포집부중 적어도하나를포함하는것을특징으로한다. | ||||||
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