| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 真空蒸发式脱盐装置 | CN201610680720.6 | 2013-01-16 | CN106277116A | 2017-01-04 | 岛田统行; 清水康次; 织田亨; 中尾千晶 |
| 本发明提供一种真空蒸发式脱盐装置。该真空蒸发式脱盐装置的热效率优异。真空蒸发式脱盐装置(1)包括:加热器(3),其利用来自热源的热量对被供给的原料海水进行加热而生成蒸汽;密闭型的容器主体(2),其供利用加热器(3)产生的蒸汽导入;减压部件(水喷射器)(7),其用于对容器主体(2)内进行减压;冷凝器(4),其用于利用冷却用海水对容器主体(2)内的蒸汽进行冷却而生成淡水;预热器(5),其用于利用容器主体水的一部分进行加热而将其作为原料海水供给至加热器(3)。冷凝器(4)及预热器(5)中至少一者的各导热管(40、50)的内表面或者外表面进行过凸凹加工。(2)内的蒸汽对自冷凝器(4)排出来的冷却用海 | ||||||
| 22 | 一种透镜水槽式太阳能海水淡化保障船 | CN201610247283.9 | 2016-04-15 | CN105776390A | 2016-07-20 | 黄德中; 黄颖 |
| 本发明公开了一种透镜水槽式太阳能海水淡化保障船,包括船体,所述船体的中部固定有船体甲板,船体甲板与船体之间固定有凝水室隔板、蒸发室隔板、隔成凝水仓、蒸发仓,凝水仓在蒸发仓的左边,凝水仓内固定有冷凝管,船体的外侧面设置有过滤器,冷凝管的下端与过滤器相连,冷凝管的上端与海水水泵相连,凝水仓的左上方通过甲板设置有出气管,海水水泵出水管与透镜水槽相通,透镜水槽的右端通过聚热管通到蒸发室内的喷淋管上,喷淋管上安装有多个喷头,凝水仓和蒸发室之间有通道相连通,通道中设置有引风机;设置在船体两侧船沿上有太阳能电池板、气缸。使用本发明的一种透镜水槽式太阳能海水淡化保障船,占地少,成本低。 | ||||||
| 23 | 潜能剥夺式水电联产方法及装置 | CN201610095231.4 | 2016-02-22 | CN105711795A | 2016-06-29 | 庞永清; 庞铮; 庞凯元 |
| 本发明涉及一种用于海水淡化、污水处理、新能源电力、船舶驱动等领域的潜能剥夺式水电联产方法及装置:在真空压汽蒸馏的水电联产装置内,以常温海水降温至0℃时释放的海水自身潜能为主要制水能量,利用压汽装置压缩蒸汽并迫使海水持续蒸发,利用水泵抽吸力牵引并强制蒸汽与待蒸海水进行热交换,用水泵和电动机的运转热及磁控管冷却热加热待蒸海水,废余水流动能发电后以微波加热促进蒸发,使常温蒸馏自动转化为热蒸馏,利用持续剥夺海水自身潜能积蓄的能量使高温高压蒸汽驱动蒸汽轮机发电或输出动力,突破海水淡化成本瓶径,实现船舶无油高速驱动,获得廉价环保大功效电力输出,解决电力紧张能源匮乏等问题。 | ||||||
| 24 | 安装在驳船上的海水淡化装置及用于放置海水淡化装置的方法 | CN201080023185.8 | 2010-05-24 | CN102448890A | 2012-05-09 | 权赫; 李殷培; 金铉缜; 安星一 |
| 本发明是关于安装在驳船上且设计为浮于海平面上,用以执行淡化的海水淡化装置,并且关于安装海水淡化装置(其安装于驳船上)的方法,其涉及将要安装在驳船上的海水淡化装置装载在重货运输船,或将淡化装置与动力产生装置一起装载在重货运输船,并以拖船牵引重货运输船,以安装于缺水或缺电区域、或岛屿的海滨。 | ||||||
| 25 | 用于多功能数据和工程系统205的方法和装置 | CN200680044365.8 | 2006-09-08 | CN101316758A | 2008-12-03 | 倪豪杰 |
| 本发明涉及一种安装和装备在船舶上的生产设备的方法,首先使用通海吸水箱向压载舱内装满海水,保证合理的稳定系数以使生产设备连续且安全地运行。 | ||||||
| 26 | 移动式脱盐装置和系统以及生产脱盐水的方法 | CN200480036833.8 | 2004-11-18 | CN1890184A | 2007-01-03 | 安德鲁·W·戈登 |
| 本发明是关于对水进行脱盐的系统、方法和装置。船舶包括取水系统、反渗透系统、浓缩液排放系统、渗入液运送系统、动力源和控制系统。该浓缩液排放系统包含有多个浓缩液排放口。 | ||||||
| 27 | 船舶の設備管理システム、設備管理プログラムおよび設備管理方法 | JP2016240443 | 2016-12-12 | JP6388020B2 | 2018-09-12 | 福澤 耕太郎; 原田 要; 角田 和彦; 八木 稔 |
| 28 | 船舶の設備管理システム、設備管理プログラムおよび設備管理方法 | JP2016240443 | 2016-12-12 | JP2018103637A | 2018-07-05 | 福澤 耕太郎; 原田 要; 角田 和彦; 八木 稔 |
| 【課題】少なくともバラスト水処理設備、ボイラ設備、造水処理設備から得られる各状態情報から選択される一または複数の状態情報の組み合わせないし一括的な管理を実現する。 【解決手段】船舶(4)の設備管理システム(2)は、船舶に搭載された少なくともバラスト水処理設備(8)、ボイラ設備(10)および造水処理設備(12)の各状態情報から選択された一つの状態情報または2以上の状態情報を含む告知情報を船舶から無線により取得する通信部(20)と、前記船舶から取得した前記告知情報から前記バラスト水処理設備、前記ボイラ設備または前記造水処理設備の前記状態情報を抽出し、前記バラスト水処理設備、前記ボイラ設備または前記造水処理設備に少なくとも必要な薬剤情報を含む管理情報を生成し、該管理情報を少なくとも前記告知情報を送出した船舶に対して前記通信部に送出させる処理部(22)とを備える。 【選択図】図1 |
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| 29 | Multipurpose data and method and apparatus for Engineering A ring system 205 | JP2008533301 | 2006-09-08 | JP2009509855A | 2009-03-12 | ハウ・キアプ・グー |
| 船舶の船内に製造設備を装着し、設置する方法に関する。 船舶は、先ず最初に船舶の海水箱を使用して海水を取り込んで船舶のバラストタンクを充填し、製造設備を連続的に且つ安全に作動できるようにする上で妥当な安定係数を確保する。
【選択図】図1 |
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| 30 | Apparatus and method for distillation | JP2003557951 | 2002-11-29 | JP2005514200A | 2005-05-19 | サンスター,オラーフ・エー |
| 蒸留、たとえば海水から淡水を抽出するため装置。 装置は、少なくとも一つの列に設けられた多数のチャンバ(3)と、蒸留流体用の入口(10)と、蒸留残渣用の出口(11)と、留出物用の出口(5)と、ガスコンプレッサ(13)とを含む。 さらに、装置は2個のパイプシステム(1、2)を含み、第一のパイプシステム(1)は、蒸留流体用の入口(10)及び蒸留残渣用の出口(11)ならびに湿分用の出口(12)を有する。 第二のパイプシステム(2)は、多数のチャンバ(3)を列にして有し、各列(3)が、湿分用の上入口(4)及び留出物用の下出口(5)を有する。 入口(4)どうしが並列に接続され、出口(5)どうしが並列に接続されている。 第一のパイプシステム(1)の湿分出口(12)はコンプレッサ(13)を介して第二のパイプシステム(2)の出口(4)に接続されており、第一のパイプシステム(1)は、蒸留流体用の入口(10)、蒸留残渣用の出口(119及び湿分出口(12)の間で第二のパイプシステム(2)を包囲する。本発明はまた、当該装置の使用による蒸留方法を提供する。 | ||||||
| 31 | PROCESS AND RADIATOR DEVICE FOR WORT STERILIZATION BY RADIATION FOR ETHANOL PRODUCTION | US14633043 | 2015-02-26 | US20150306262A1 | 2015-10-29 | Marcelo Gianatto Moreira; Airton Deppman; Pedro Carlos Russo Rossi |
| A method and irradiator apparatus used for wort sterilization by radiation for production of ethanol from sugar cane, comprising a trough-like fluid duct and a radiation source for directing radiation over the flow of a fluid conducted through the duct, and application of radiation to a fluid within an apparatus for sterilization of such fluid. | ||||||
| 32 | Method and apparatus for extracting energy from wind and wave motion | US12377510 | 2007-08-14 | US08169093B2 | 2012-05-01 | Philip J Griffin; Brian Kinloch Kirke; Peter Donald Parker |
| A method and apparatus for extracting energy from wind and wave motion using a common floating platform comprising a ship hull (10) which is moored in an offshore location and which supports wind turbines (27) for extracting energy from wind and wave energy extraction devices (12) positioned at least at one side of the hull (10) for extracting energy from wave motion relative to the hull (10). The method and apparatus may also use water current energy extraction devices. The hull (10) may also support a desalination plant (45) which uses the energy generated from the wind, wave and water current energy extraction devices. | ||||||
| 33 | Energy Extraction Method and Apparatus | US12377510 | 2007-08-14 | US20100229545A1 | 2010-09-16 | Philip J. Griffin; Brian Kinloch Kirke; Peter Donald Parker |
| A method and apparatus for extracting energy from wind and wave motion using a common floating platform comprising a ship hull (10) which is moored in an offshore location and which supports wind turbines (27) for extracting energy from wind and wave energy extraction devices (12) positioned at least at one side of the hull (10) for extracting energy from wave motion relative to the hull (10). The method and apparatus may also use water current energy extraction devices. The hull (10) may also support a desalination plant (45) which uses the energy generated from the wind, wave and water current energy extraction devices. | ||||||
| 34 | Desalination on an offshore apparatus | US11833279 | 2007-08-03 | US07476323B2 | 2009-01-13 | Andrew W. Gordon |
| Systems, methods, and apparatus for desalinating water are provided. A vessel includes a water intake system, a reverse osmosis system, a concentrate discharge system, a permeate transfer system, a power source, and a control system. The concentrate discharge system includes a plurality of concentrate discharge ports. | ||||||
| 35 | Intake for water desalination systems, and methods of use | US11521020 | 2006-09-14 | US20070056907A1 | 2007-03-15 | Andrew Gordon |
| Systems, methods, and apparatus for desalinating water are provided. A vessel includes a water intake system, a reverse osmosis system, a concentrate discharge system, a permeate transfer system, a power source, and a control system. The concentrate discharge system includes a plurality of concentrate discharge ports. A water intake system installed on a sea-going vessel positioned on the surface of a body of water includes an apparatus for taking up seawater from the body of seawater. The apparatus includes a water intake member, a water intake positioned on the water intake member, and an impingement, entrainment, and entrapment mitigation device at least partially surrounding the water intake and including a plurality of apertures sized to prevent entry of marine organisms into the water intake. A method of desalinating water on a sea-going vessel positioned on the surface of a body of seawater includes the steps of intaking seawater from the body of seawater into the vessel through a first screen including a plurality of apertures sized to prevent entry of marine organisms into the water intake, and removing salt from the seawater taken into the vessel to yield desalinated water and a concentrate. | ||||||
| 36 | Methods and systems for producing electricity and desalinated water | US11471747 | 2006-06-20 | US20060283802A1 | 2006-12-21 | Andrew Gordon |
| The heated exhaust from a gas turbine-powered electrical generator mounted on a structure positioned offshore on the surface of a body of water is transferred to water to be desalinated to aid in the desalination process by providing heat for distillation or by raising the temperature of water to be desalinated to a temperature more suitable for efficient desalination by reverse osmosis or another method. The electricity produced by the generator and the desalinated water produced by the desalination system are conveyed to a land-based distribution center for use on land. Concentrate produced by the desalination system can be diluted prior to discharge into the body of water to reduce the impact on the environment. | ||||||
| 37 | Device and method for destillation | US10498119 | 2002-11-29 | US20050061653A1 | 2005-03-24 | Olav Sandstad |
| Device for distillation, for example extraction of fresh water from sea water, including a number of chambers (3) at least in one row, an inlet (10) for distillation fluid, an outlet (11) for the distillation residue, an outlet (5) for the distillate, and a gas compressor (13). Further, the device includes two pipe systems (1,2), where the first pipe system (1) has an inlet (10) for the distillation fluid and an outlet (11) for the distillation residue, together with an outlet (12) for damp. The second pipe system (2) has a number of chambers (3) in a row, each row (3) having an upper inlet (4) for damp and a lower outlet (5) for distillate. The inlets (4) are connected in parallel, and the outlets (5) are connected in parallel. The damp outlet (12) of the first pipe system (1) is connected to the outlet (4) of the second pipe system (2) via the compressor (13), and the first pipe system (1) encloses the second pipe system (2) between the inlet (10) for distillation fluid, the outlet (11) for the distillation residue and the damp outlet (12). The invention also provides a method for distillation by use of such a device. | ||||||
| 38 | Ship with snow making capabilities utilizing seawater | US263279 | 1999-03-05 | US6076364A | 2000-06-20 | Heinz G Stripp |
| A ship with snow making capabilities utilizing seawater including a ship capable of floating in sea water. The ship has bridge controls to control all functions of the ship. The bridge controls are in communication with substation controls, navigation controls, and propulsion controls. The bridge controls further includes snow making and water harvesting controls. The ship has a sea water intake. The ship has an air intake. The air intake is in communication with an air compressor disposed within the ship. The air compressor has controls associated therewith. A snow making machine is positioned within the ship. The snow making machine is in communication with the sea water intake for receiving sea water therefrom. The snow making machine converts the sea water to snow for being stored in holds on the ship. A brine bilge system accumulates brine drained from the snow. The brine bilge system includes a sump and controls for monitoring the brine in the holds and pumping the brine out of the holds. | ||||||
| 39 | Desalination system having rechargeable syphon conduit | US954155 | 1992-09-30 | US5282979A | 1994-02-01 | Henry A. Wilson |
| A desalination system includes a transfer conduit between a pool of salt water and a pool of desalinated water. The conduit is initially filled with water and is then elevated so that a portion of the conduit is above the syphon height of water at atmospheric pressure with the open ends of the conduit submerged below the respective pools. Using solar heat to create a temperature differential in the conduit, desalinated water vapor is transferred across a partial vacuum volume formed in the conduit. | ||||||
| 40 | Transportable process modules | US968629 | 1978-12-12 | US4356785A | 1982-11-02 | Robert E. Bailie |
| The present invention relates to process modules designed for interconnection during shipment as well as installation. The process modules may be of a single deck design adapted to be stacked and transported on specially designed ships, as in LASH vessels, or the process modules may be of a design that is connectable to a specially designed ship as a part of the ship's hull. Fabrication of the process modules is performed at a shipyard facility. The completely fabricated modules are transportable in an assembled manner to a remote plant site aboard a LASH barge vessel or other special vessel where the modules are again assemblied either as a floating or land-based process plant installation. | ||||||
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