| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 由静态动能产生势能的管道涡轮系统 | CN201110094269.7 | 2011-04-13 | CN102220931A | 2011-10-19 | 穆吉德·乌尔·拉赫曼·阿尔维 |
| 本发明公开了一种管道涡轮系统,该系统具有组合单元组件,该组合单元组件具有作为单元结合在运输原料(气体或液体)的管线网络系统中的两个设备(I)与(II):组合设备(I):结合在原料在其中运输的管线网络系统中的发电机设备,其具有喷嘴文氏管输入口,激活管线系统中固有存在的以及内设的处于静止状态的动能,以产生势能于此;组合设备(II):连结于发电机设备的排出器设备,结合在具有输入口的管线周围,其中具有狭缝文氏管输出口以恢复管线网络系统中可能的速压损失。该系统有效利用并补充潜在固有地存在于所述系统内的静态动能,且不影响管线网络的效率或使运输的物质受污染,克服了发电机设备中背压形成的技术问题。 | ||||||
| 2 | DEVICE FOR CAPTURING WAVE ENERGY | US15308478 | 2015-05-12 | US20170184072A1 | 2017-06-29 | Inaki ZABALA; Alvaro AMEZAGA |
| A device (OWC Oscillating Water Column) for capturing wave energy, the upper part of which contains a pressure accumulator (3) connected to the atmosphere through a unidirectional outlet turbine (4) and a vacuum accumulator (6) connected to the atmosphere through a unidirectional inlet turbine (5). The lower portion is formed by at least one block, where each block is made up of a structural column (19), which when submerged in the water gives rise to a water column (8) and an air chamber (1) in the upper portion. Each block is connected to the pressure accumulator (3) through a non-return intake valve (2), and to the vacuum accumulator (6) through a non-return exhaust valve (7), and having an inlet (16) arranged in the lower portion of each structural column (19).One of the main characteristics of the device is that the pressure (3) and vacuum (6) accumulators act as an air manifold, inhaling and exhaling through the blocks, and at the same time damping sudden changes in pressure. | ||||||
| 3 | Device for capturing wave energy | US15308478 | 2015-05-12 | US10041467B2 | 2018-08-07 | Inaki Zabala; Alvaro Amezaga |
| A device (OWC Oscillating Water Column) for capturing wave energy, the upper part of which contains a pressure accumulator (3) connected to the atmosphere through a unidirectional outlet turbine (4) and a vacuum accumulator (6) connected to the atmosphere through a unidirectional inlet turbine (5). The lower portion is formed by at least one block, where each block is made up of a structural column (19), which when submerged in the water gives rise to a water column (8) and an air chamber (1) in the upper portion. Each block is connected to the pressure accumulator (3) through a non-return intake valve (2), and to the vacuum accumulator (6) through a non-return exhaust valve (7), and having an inlet (16) arranged in the lower portion of each structural column (19).One of the main characteristics of the device is that the pressure (3) and vacuum (6) accumulators act as an air manifold, inhaling and exhaling through the blocks, and at the same time damping sudden changes in pressure. | ||||||
| 4 | Tunnel turbine system generates potential energy from dorment kinetic energy | US13066446 | 2011-04-13 | US20110268565A1 | 2011-11-03 | Mujeeb Ur Rehman Alvi |
| A generator system includes a pipe line which includes a control valve for diverting input gas or liquid into a pair of bypass pipe lines, whose output is coupled with two nozzle venture inlets in a turbine housing. Gas or liquid entering the turbine housing through the nozzle venture inlets rotates a turbine impellor having a generator shaft to generate energy. Gas or liquid exiting from the turbine housing, along with diverted input gas or liquid, pass through an ejector device which eliminates back pressure and restores any pressure loss. | ||||||
| 5 | Double Acute Angle Hydro and Wind Turbine | US15085425 | 2016-03-30 | US20160208771A1 | 2016-07-21 | George David Hughes |
| An efficient low flow, low head, undershot double acute angle turbine where the flow strikes the blades at 90° without the Betz limit. Blades are set at an acute angle to the axle and the turbine is positioned in the flow at the compliment of the blade angle. There is no lag on downstream blades. There is no turbulence when the idle blade enters the flow. Active blades exhaust to the next blade to extract more energy. Simple adjustments set the flow to the blade tip that will produce the highest rotational speed. It is portable. It can be scaled up for larger applications by adding blades to the axle or using longer blades. It can be made from repurposed materials using hand tools. Hydro installations include in a sluice and on a floating barge. It has been tested successfully in flowing water and wind. | ||||||
| 6 | Hydraulic Turbines with Exit Flow Direction Opposite to its Inlet Flow Direction | US14437842 | 2013-10-10 | US20150275913A1 | 2015-10-01 | Ahmed El Jamil Ahmed Mohamed |
| The invention introduces a hydraulic turbine that extract the energy from the hydraulic kinetic and potential energy through passing the fluid inside the turbine wheel. The fluid enters the wheel heart almost perpendicular to its axis in almost tangential direction, decelerates in diffusers and change direction to almost radial. The flow is them changes direction from almost perpendicular to the axis to axial, then to almost perpendicular to the axis again but in opposite direction to its entrance. To exit, the flow accelerates in nozzles and change its direction to exit almost tangential and opposite to its very beginning entrance. In brief the exit direction in the very end is opposite to the entrance in the very beginning the transfer from the inlet passage to the exit passage is also associated with almost hundred eighty degrees change in direction, and the flow is subjected to deceleration and acceleration. All of these actions produce torques in the same direction to be utilized to generate power. | ||||||
| 7 | 波力エネルギーを獲得する装置 | JP2017512417 | 2015-05-12 | JP2017516027A | 2017-06-15 | サバラ,イニャキ; アメザガ,アルヴァロ |
| 波力エネルギーを獲得する装置(OWC)であって、上記装置の上部は、単方向式排出タービン(4)によって大気と接続された蓄圧器(3)と、単方向式流入タービン(5)によって大気と接続された負圧蓄圧器(6)とを含む。上記装置の下部は少なくとも1つのブロックから構成され、各ブロックは、水中に沈められた時に水柱(8)および上部の空気室(1)を上げる構造柱(19)からなる。各ブロックは、逆流防止吸入弁(2)によって上記蓄圧器(3)と接続され、逆流防止排出弁(7)によって上記負圧蓄圧器(6)と接続され、各構造柱(19)の下部に配置されている流入口(16)を有する。上記装置の1つの主要な特徴は、上記蓄圧器(3)および負圧蓄圧器(6)は、ブロックから吸気および排気し、同時に、気圧の急な変化を弱める空気多岐管としての機能を果たすことである。 | ||||||
| 8 | Tunnel turbine system generating potential energy from dormant kinetic energy | JP2011089252 | 2011-04-13 | JP2011220340A | 2011-11-04 | MUJEEB UR REHMAN ALVI |
| PROBLEM TO BE SOLVED: To provide a tunnel turbine system that generates a potential energy from a dormant kinetic energy.SOLUTION: In a tunnel turbine system that generates the potential energy from the dormant kinetic energy present in a pipeline network system, an enormous amount of potential energy can be used without using fuel, discharging greenhouse gas, and causing environmental pollution owing to stock (gas or fluid) under transportation with a velocity pressure. | ||||||
| 9 | Tunnel turbine system generates potential energy from dormant kinetic energy | EP11162273.4 | 2011-04-13 | EP2418374A2 | 2012-02-15 | Ur Rehman Alvi, Mujeeb |
The "TUNNEL TURBINE SYSTEM" - |
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| 10 | Device for capturing wave energy | EP14382169.2 | 2014-05-14 | EP2944801B1 | 2017-08-02 | Zabala, Iñaki; Amezaga, Alvaro |
| A device (OWC Oscillating Water Column) for capturing wave energy, the upper part of which contains a pressure accumulator (3) connected to the atmosphere through a unidirectional outlet turbine (4) and a vacuum accumulator (6) connected to the atmosphere through a unidirectional inlet turbine (5). The lower portion is formed by at least one block, where each block is made up of a structural column (19), which when submerged in the water gives rise to a water column (8) and an air chamber (1) in the upper portion. Each block is connected to the pressure accumulator (3) through a non-return intake valve (2), and to the vacuum accumulator (6) through a non-return exhaust valve (7), and having an inlet (16) arranged in the lower portion of each structural column (19). One of the main characteristics of the device is that the pressure (3) and vacuum (6) accumulators act as an air manifold, inhaling and exhaling through the blocks, and at the same time damping sudden changes in pressure. | ||||||
| 11 | Device for capturing wave energy | EP14382169.2 | 2014-05-14 | EP2944801A1 | 2015-11-18 | Zabala, Iñaki; Amezaga, Alvaro |
A device (OWC Oscillating Water Column) for capturing wave energy, the upper part of which contains a pressure accumulator (3) connected to the atmosphere through a unidirectional outlet turbine (4) and a vacuum accumulator (6) connected to the atmosphere through a unidirectional inlet turbine (5). The lower portion is formed by at least one block, where each block is made up of a structural column (19), which when submerged in the water gives rise to a water column (8) and an air chamber (1) in the upper portion. Each block is connected to the pressure accumulator (3) through a non-return intake valve (2), and to the vacuum accumulator (6) through a non-return exhaust valve (7), and having an inlet (16) arranged in the lower portion of each structural column (19). One of the main characteristics of the device is that the pressure (3) and vacuum (6) accumulators act as an air manifold, inhaling and exhaling through the blocks, and at the same time damping sudden changes in pressure.
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| 12 | 비활성상태의 운동에너지로부터 위치 에너지를 생성하는 터널터빈 시스템 | KR1020110034214 | 2011-04-13 | KR1020110114493A | 2011-10-19 | 무지브우르레흐만알비 |
| 본 발명은 에너지 생성에 관한 것으로 특히 위치에너지를 생성하기 위하여 파이프라인 네트워크 시스템에 존재하는 비활성상태의 운동에너지를 활성화시키는 발명이다. 터널터빈 시스템(도 1)은 파이프라인 네트워크 시스템에 통합되는 2개의 장치 (I, II)로 구성되는데, 구성요소 I은 파이프라인 네트워크 시스템에 통합되는 발전기이다. 노즐 벤츄리관 입구가 있으며, 스톡(액체 또는 기체)이 이동하고, 위치에너지 생성을 위하여 파이프라인 시스템에 내제되어 있는 비활성상태의 운동에너지를 활성화한다. 한편 구성요소 II은 파이프라인 네트워크 시스템에 통합되는 유닛으로서 상기 발전기와 짝을 이루는 추출기이다. 이는 입구가 있는 파이프라인 주위에 통합되고 장착되는데, 좁고 긴 벤츄리관 출구를 내장한다. 이로 인해 파이프라인 네트워크 시스템에 있을 수 있는 속도압력 손실을 복원하고, 상기 발전기(I)에서 발생할 수 있는 배압증가를 방지한다. 본 발명은 종래의 파이프라인 시스템에 비해 연료를 사용하거나 환경을 오염시키거나 온실가스(탄소)를 배출하거나 온도를 상승시키지 않고 위치에너지를 생성하기 위해 파이프라인 네트워크 시스템에 원래 존재하는 운동에너지를 비활성상태에서 활성화시키는 세계 유일의 시스템이다.
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| 13 | 양력 발전장치 | KR1020110031902 | 2011-04-06 | KR101049217B1 | 2011-07-13 | 안중환; 김창환; 김훈민 |
| PURPOSE: A lift power generation system is provided to offer excellent electric power production efficiency with a new mechanism by changing a vertically reciprocating movement of an airfoil into a rotational movement with lift force and producing electric power, and to solve various problems of the existing wind power generator like noise pollution, etc. CONSTITUTION: A lift power generation system comprises: a base(10); an airfoil(20) installed to the base to be movable vertically to ascend and descend with wind velocity; a turnover unit overturning the airfoil when the airfoil reaches an upper dead point and a lower dead point; two pistons(41) connected to the bottom of two supports(30) connected to two sides of the airfoil respectively to make a straight movement vertically along the inside of a cylinder(40); a movement changeover unit connected to the bottom of each piston to change the vertical straight movement of the piston into a rotational movement; a power generator(60) receiving rotary force from the movement changeover unit and producing electric power; and an accelerator(70) connected between the movement changeover unit and the power generator to accelerate the rotating speed of the movement changeover unit and to transfer to the power generator. | ||||||
