| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Geothermal power generation system | JP50182597 | 1996-06-07 | JPH11508342A | 1999-07-21 | シュネル、ジェイムズ、エイチ. |
| (57)【要約】 地熱エネルギーから発電するシステム(10)は、地熱を捕捉および貯蔵するための井戸(12)の底部における吸熱反応、および吸熱反応の生成物内に貯蔵された熱を放出するための井戸(12)の最上部における発熱反応による。 一つの好ましい態様において、吸熱反応は水の分解である。 吸熱反応を誘発すると共に得られる生成物を捕捉し分離するために、各種類の生成物が個々の導管(24,26)内に選択的に拡散する触媒装置(22)を用いる。 吸熱生成物は燃焼タービン(240)内で発熱反応を起こし、発熱反応の生成物は凝縮器(242)内において直ちに凝縮される。 一つの好ましい態様において、凝縮器(242)は、井戸(12)に戻して降下させるために水蒸気を液状水に凝縮し、閉鎖系を形成する。 | ||||||
| 62 | Signal transmission device and method | JP8694194 | 1994-04-25 | JPH07294658A | 1995-11-10 | TANIGUCHI RYOSUKE; HATTORI SHINICHI; SAKAMOTO TAKAHIRO |
| PURPOSE:To easily retain an electric wave signal and to surely transmit it over a long distance by transmitting the electric wave signal obtaining a large excitation acceleration with a small amplitude due to magnetostriction phenomenon via a rod-shaped body (drill pipe). CONSTITUTION:Information detected by various kinds of detectors 5 provided at a pit bottom is read into a transmitter subsystem 1 via an information communication mechanism 11 and is subjected to shock modulation by a modulation circuit 12. Namely, current with the same rising speed as the response speed of the magnetostriction material of a magnetostriction oscillator 21 mounted on the transmitter subsystem is allowed to flow to the excitation coil winding of the oscillator 21 via a high-speed switching circuit 15 and current is intercepted when magnetic field reaches a target value, thus generating a large acceleration and hence a shock wave. The shock wave becomes a supersonic acoustic signal, is propagated through a drill string connected to a drill pipe 4 and reaches a reception subsystem 6 on the ground, is detected by an acoustic detector, and is demodulated into an original coded data signal. Since the supersonic waves are attenuated less, a signal can be surely transmitted even over a long distance. | ||||||
| 63 | Ground hole signal transmitter for mud current pulse telemeter system | JP12598983 | 1983-07-11 | JPS5924399A | 1984-02-08 | ANSONII UIRIAMUSU RATSUSERU; MAIKERU KINGU RATSUSERU |
| 64 | 지표면 아래의 지질 구조물의 수압 파쇄를 위한 모바일 발전 | KR1020177020105 | 2015-12-16 | KR1020170121158A | 2017-11-01 | 모리스제프리지.; 보디쉬바흐아드리안벤자민; 반브릿 |
| 탄화수소연료를전기로변환시키도록구성된발전트랜스포트; 및주입및 배기트랜스포트가상기발전트랜스포트의최상부측에연결되지않도록상기발전트랜스포트의적어도한 측면에결합하고, 송풍공기및 연소공기를상기발전트랜스포트에제공하고, 상기발전트랜스포트로부터배출공기를수집하고, 상기배출공기를여과하도록구성된상기주입및 배기트랜스포트;를포함하는모바일전력을제공한다. 다른실시예에서, 파쇄펌프트랜스포트는파쇄유체를가압하고펌핑하도록구성된제1 펌프, 파쇄유체를가압및 펌핑하도록구성된제2 펌프, 및이중샤프트전기모터를포함하고, 상기이중샤프트전기모터는샤프트를포함하고, 전력원으로부터전력을수용하고, 제1 펌프와제2 펌프를샤프트로병렬로구동시키도록구성된다. | ||||||
| 65 | 해양플랜트의 전력 제어 장치 및 방법 | KR1020140129112 | 2014-09-26 | KR1020160036891A | 2016-04-05 | 조세호; 정호영 |
| 본발명은 VMS(vessel monitoring and control system)가드릴링프로세스를고려하여전력리미트(limit)를계산하여그에따라전력제한신호를 VFD로전송하는해양플랜트의전력을제어하는장치및 방법에관한것이다. 본발명의일 실시예에따르면, 해양플랜트의전력제어장치에있어서, 작업자로부터상기드릴링장비에대한명령을입력받아, 상기명령을수행하기위해필요한전력에관한정보를 VMS로전송하는드릴링장비제어기; 상기해양플랜트의현재생산전력의양, 현재소비전력의양 및드릴링프로세스에따른계수를이용하여드릴링장비의복수의모터들각각에대한전력리미트(power limit)를계산하고, 상기전력리미트및 상기명령을수행하기위해필요한전력에관한정보에따라전력제한신호를 VFD로전송하는 VMS; 및상기전력제한신호를수신하여상기전력제한신호에따라상기복수의모터들을제어하는 VFD를포함하고, 상기드릴링프로세스에따른계수는상기드릴링장비에대해드릴링프로세스에따라미리정해져있는값인, 해양플랜트의전력제어장치가제공된다. | ||||||
| 66 | 해저 크리스마스 트리용 이에프엘 연결방법 | KR1020110144743 | 2011-12-28 | KR1020130076233A | 2013-07-08 | 이홍래 |
| PURPOSE: An electrical flying leader (EFL) connection method for an underwater Christmas tree is provided to significantly shorten a construction period for an underwater Christmas tree which requires a long period of time due to the collection and re-installation of a protective cover and a canopy. CONSTITUTION: An EFL connection method for an underwater Christmas tree comprises the following step: installing a plurality of guide posts (100) in a Christmas tree (1); connecting one or more buoyant canopy buoys (200) to a canopy (10) to temporarily lift the canopy guided by the guide post; connecting one or more buoyant cover buoys (300) to a protective cover (20) to temporarily lift the protective cover; and connecting the connection end of an EFL to the connection part of the Christmas tree. | ||||||
| 67 | 경부하전력을 이용한 이지에스 조성시스템 및 방법 | KR1020090003582 | 2009-01-16 | KR1020100028462A | 2010-03-12 | 이시우 |
| PURPOSE: A system and a method for creating an Enhanced Geothermal System using light loading power are provided to create an EGS with less costs, and to improve profitability. CONSTITUTION: A method for creating an EGS using light loading power is as follows. A drilling rig and a hydraulic fracturing pump are prepared. The drilling rig is powered using power which is cheap when light loading. An injection well, a production well, or a single well necessary for creating an EGS is drilled and completed. The hydraulic fracturing pump is powered in the injection well, the production well, or the single well, and an injection flow rate and a total injection rate are gradually increased. | ||||||
| 68 | 地下地層の液圧破砕のための移動式発電 | JP2017551569 | 2015-12-16 | JP6415748B2 | 2018-10-31 | モリス,ジェフリー,ジー; ボディッシュボー,アドリアン,ベンジャミン; ヴァン,ブレット |
| 69 | ダウンホール機器のための電源 | JP2014522894 | 2012-07-19 | JP6093354B2 | 2017-03-08 | リッカルド・シニョレッリ; ジョン・ジェイコブ・クーリー; クリストファー・ジョン・シボールド・ディーン; ジェイムズ・エプスタイン; パドマナバン・サスタン・クッティピライ; ファブリツィオ・マルティーニ; ジョセフ・レイン |
| 70 | 発電システム | JP2012071864 | 2012-03-27 | JP5842703B2 | 2016-01-13 | 山本 正浩; 高井 研; 猿橋 具和; 澤田 郁郎; 宮崎 淳一; 渋谷 岳造; 中村 謙太郎; 中村 龍平; 橋本 和仁 |
| 71 | 掘削孔の探査方法、掘削装置およびボアホール探査アセンブリ | JP2015530467 | 2013-09-05 | JP2015531440A | 2015-11-02 | ミッコ ヘイノネン、; ハッリ スヨホルム、; ユッシ ラウティアイネン、; ミッコ マッティラ、 |
| 本発明は、掘削孔の探査方法、掘削装置およびボアホール探査アセンブリに関する。本方法は、少なくとも1つのドリルロッド(2)およびドリルビットアセンブリ(3)を備える掘削機(1)を設ける第1の設置工程と、ボアホール(6)を測定するセンサ手段(5)を備えるボアホール探査器(4)を設ける第2の設置工程とを含む。本方法では、フラッシング流体をドリルビットアセンブリ(3)に送る中央フラッシング流路(8)を備える掘削機(1)を使用し、配設工程にてボアホール探査器(4)を中央フラッシング流路(8)内に配設して、フラッシング流体が中央フラッシング流路(8)内のボアホール探査器(4)中を流動可能にする。【選択図】図1 | ||||||
| 72 | Progressive cavity device comprising a transducer | JP2010541511 | 2008-12-29 | JP5364105B2 | 2013-12-11 | ジェフ ダウントン |
| The present invention relates to a stator (100-1000) with a profiled helical bore (106,206,306,606,706,806,906,1006) having a cast material layer (102;202;302;602;702;802;902;1002) with transducers (104A-104D;304;604A-604D;710;804;904A-904C;1010) disposed therein and describes the methods of forming such stators. Cast material can be fluidic during displacing of a transducer therein. Cast material layer 202 can include housings (218,222) disposed therein and/or a cavity 226 formed therein. Transducer can be a sensor (104A-104C) and/or an actuator 104D. Transducer 804 can extend axially along a length of the stator 800. Transducer or plurality of transducers (904A-904C) can extend along a helical path. Additionally or alternatively, sleeve 1008 can include a transducer 1010. | ||||||
| 73 | Signal transmission apparatus and signal transmission method | JP8694194 | 1994-04-25 | JP3311484B2 | 2002-08-05 | 隆博 坂本; 晋一 服部; 良輔 谷口 |
| 74 | JPH0334120B2 - | JP12598983 | 1983-07-11 | JPH0334120B2 | 1991-05-21 | ANSONII UIRIAMUSU RATSUSERU; MAIKERU KINGU RATSUSERU |
| 75 | JPS642757B2 - | JP13390781 | 1981-08-26 | JPS642757B2 | 1989-01-18 | ANSONII UIRIAMU RATSUSERU; MAIKERU KINGU RATSUSERU |
| 76 | JPS6224592B2 - | JP5281 | 1981-01-05 | JPS6224592B2 | 1987-05-29 | HAINTSU BUARUZETSUKU; MARUTEIIN BUIIBE; TOOMASU REDAA |
| 77 | Down-haul device giving rotary motion | JP22111885 | 1985-10-03 | JPS61171884A | 1986-08-02 | MAIKURU KINGU RATSUSERU; KORIN ORUROTSUTO |
| 78 | JPS5855316B2 - | JP15059880 | 1980-10-27 | JPS5855316B2 | 1983-12-09 | JAKUSON REINORUZU KUREIKOMU |
| 79 | 방전으로 회전 드릴링을 하기 위한 시스템 | KR1020167024207 | 2015-02-20 | KR1020160144351A | 2016-12-16 | 바욜프레데릭; 드라만보니; 가우센쟝-루이스; 고에프페르트크리스토프 |
| 본발명은회전드릴링을위한하향공장치에관한것으로, 이장치는, 일련의로드(4)의단부에설치되는발전기(5); 이발전기에기계적으로또한전기적으로연결되는펄스발생기(6); 전기드릴링공구(7); 및전기슬라이딩스위치시스템(9)을포함한다. 본발명은방전을이용하는드릴링의분야에유용하다. | ||||||
| 80 | 드릴 구멍들을 조사하는 방법, 드릴링 배열체, 및 보어홀 조사 조립체 | KR1020157007988 | 2013-09-05 | KR1020150054868A | 2015-05-20 | 헤이노넨미꼬; 시외홀름하리; 라우띠아이넨유시; 마띨라미꼬; 몬또넨요리 |
| 본발명은드릴구멍들을조사하는방법, 드릴링배열체및 보어홀조사조립체에관한것이다. 상기방법은적어도하나의드릴로드 (2) 및드릴비트조립체 (3) 를포함하는드릴공구 (1) 를제공하는제 1 제공단계, 및보어홀 (6) 을측정하기위해센서수단 (5) 을포함하는보어홀조사공구 (4) 를제공하기위한제 2 제공단계를포함한다. 상기방법에서, 플러싱유체를드릴비트조립체 (3) 로안내하기위해중앙플러싱채널 (8) 을포함하는드릴공구 (1) 가사용되고, 플러싱유체가보어홀조사공구 (4) 을지나중앙플러싱채널 (8) 에서유동할수 있도록, 보어홀조사공구 (4) 는배열단계에서중앙플러싱채널 (8) 내에배열된다. | ||||||
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