跟读练习: EDFR GWO BTT Training Center - Nicolas Riou Wind - 通过YouTube学习英语口语
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Welcome to the Nicola Rio Technical Training Center
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Welcome to the Nicola Rio Technical Training Center
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and I will show you today how we installed the equipment
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and give you an introduction about every equipment that we have here.
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For the mechanical part, we have a full torqueing equipment inside here so we can
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torque with the hydraulic tool and the electrical tool so the high-torquing
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equipment are here and we have also an installation to stretch a bolt
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so it's a low pressure
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but it's still working like same than we are inside a
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wind turbine we have a full pump high torque pump here plus a half nt3 pump socket that we can
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that we can simulate a torqueing session here.
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For the mechanical also we have another small bench here
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so we can use a standard torque wrench
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and show to the student difference when we torque a boat between the lubricate boat
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and non lubricate boat and we can use digital galliper
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and measuring tool to make the difference between the stretch on the boat on the electrical side
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so for the mechanical it's what we have here on the bench
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but we still have a four-yard drive
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and we have three pitch system pitch drive including the motor
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and the gearbox
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and we also can do here a test torque test with the bolt the mounting bolt of the gearbox
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itself plus the electric motor to the gearbox
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so we have a lot of things here to play with
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for the mechanical part for the electrical part now we have a full sanbyon electrical cabinet exactly the same cabinet
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that we have inside the sanbyon winter bean
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so there's no difference we installed all electrical cabinet and everything starts here with the converter.
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Converter, all of the cabinet are supplied with a 600 volt AC 3-phase.
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We have a 60 amps capacity to supply all of the auxiliary systems,
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including the pitch system.
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So we start here with the 1S1 cabinet.
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This is the main connection cabinet where the grid is connected and the stator of the generator.
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We have here the 1S2 cabinet where we have the auxiliary equipment and the auxiliary supply for the winter beam.
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One S3, one S4 and one S5 cabinets.
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So this cabinets are the real converter.
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There's an IGBT filtering cabinet plus the main converter controller is there, the CSC4.
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After that we have the base box.
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This is where the communication to the wind farm is located.
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The switches are here, the fiber optic switch.
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Plus they have also a back-mounted slave module inside this cabinet.
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The top box,
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this is the brain of the wind turbine is where the
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backman computer backman tlc is located with the distribution of the 575
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or 600 volt in our case to supply all of the electric motor the fan generator fan gearbox fan motor
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the motor etc
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so our cabling everything is original from the winter me we didn't change nothing we use exactly the same cabling
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that they have inside of intervie we just adapted everything to make sure
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that it fits in our location that we have here.
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For the electric part, we also have all sensors that they have inside the NASO,
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inside the real NASO.
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So we have here a full set of PT100,
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PT1000 proximity switch, and we have the 4 to 20 milliamp simulator.
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So this represents the pressure gearbox oil transmitter.
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So instead of having the real transmitter,
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we installed a simulator here to simulate the
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1420 milliamps and they are very good to show them how the process control signals are working.
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We have also a selector switch here to simulate the pressure switch,
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how the pressure switch are working with the logic that they have linked together inside the SCADA,
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inside the backmount computer.
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The thoraconic anemometer, it gives the wind speed and the wind vein direction.
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We have a cup anemometer on the top of the top box,
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plus an analog wind vein tube.
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The sleep ring here, this is exactly the same model that we have inside the wind turbine.
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So the signal came from the top box,
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passed across the sleep ring and goes to the cable harness.
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This is exactly the same cable harness that they have on the machine.
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And it's going on the other side to supply the pitch
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system with the 400 volt AC main supply plus communication and the control signal.
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Hydraulic stations, this is another module that we can fully cover on the BTT.
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So we have here the original,
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the same hydraulic unit that they have installed inside the S&V wind turbine.
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And we have one Yaga dipper and one Rotter dipper.
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So the Yaga dipper, it's just one instead of having between 8 to 12 dipper inside the S&V machine,
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depending on the type.
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But it's fully functional, so it's exactly the same pressure, the same signal.
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And we have here the Rotter hub dipper.
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So the rotor half gallipper,
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we have kind of big plate of steel here to simulate the real disc brake
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that we have inside the machine and everything is fully functional.
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For the electrical part, we also have here a small simulator and this simulator they have contactor,
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two relays, pilot light plus here we have a small remote to control the pilot light
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and to control the equipment on this small board.
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We can teach the parallel series logic with the
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board light that we have here
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and we can teach also the relationship between the AC
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and DC we have a power supply everything is supplied with 120 volt AC connected to a GFCI service circuit
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so everything is safe everything is touch safe
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so it's a very very useful to teach what's the difference between the relay and contactor,
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or they are the same in the same times, they are so different.
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So this is a very nice small bench to work with.
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On the other side we have here the complete pitch system.
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So on the table we have the,
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yeah this is a SSD pitch system,
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we have the access cabinet on the top where are located the DC trans
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and all of the contactor and the equipment to drive the pitch motor
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and on the floor here there is the battery cabinet.
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Battery cabinets are fully loaded of batteries it's exactly the same than the winter bean is working the same.
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Central cabinet here we have the we call it the LBV
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cabinet this is this is where the pitch controller is located
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and this is the brain of the pitch system we have all three pitch motor pitch drive
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and we have the pinion down here inside the inside this
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small cabinet here it's protected with plexiglass for safety we have the secondary encoder
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and color eb limit switch and again all wiring
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that i use here is exactly the same wiring
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that we have inside the machine
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so everything is fully functional here for the for the water hub everything is working so i think the tour is complete.
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I hope that you like our setup that we have here
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and we have we have place for training for you guys so just let me know
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背景與上下文
在這段影片中,Nicolas Riou帶領觀眾參觀Nicola Rio技術訓練中心,介紹了他們安裝的設備及其功能。他深入講解了機械和電氣部分的設備配置,展示了不同工具的使用方式及其在風力發電機內的應用。該中心的設施不僅包含各種扭矩工具,還有完整的電氣控制系統,這些資訊對於希望提升技術的英語學習者尤其重要。
日常交流的五個重要短語
- 我們有完整的扭矩設備。 (We have full torqueing equipment.)
- 這是主要的連接櫃。 (This is the main connection cabinet.)
- 我們可以模擬一個扭矩會話。 (We can simulate a torqueing session here.)
- 這裡是風力發電機的腦部。 (This is the brain of the wind turbine.)
- 所有電纜都是原裝的。 (All of the cabling is original.)
逐步影子說話指南
影子說話是一種有效的學習技巧,尤其在提高口語流利度和聽力理解方面。以下是如何針對本影片進行逐步影子說話的指南:
- 觀看影片:先全面觀看影片,理解整體內容和流程,這樣有助於後續的影子說話練習。
- 分段練習:將影片分成幾個小段落,針對每一段重複觀看和模仿對話。專注於機械和電氣部分的不同設備介紹。
- 跟讀與模仿:在觀看的同時,嘗試邊聽邊跟讀,將每一句話的發音、語調和節奏進行模仿。這樣能幫助你更好地掌握英語口音和語音特色。
- 重複練習:不斷重複每段內容,直到你能流利地重述這些句子。考慮使用可錄音的應用來回放你的發音,進行自我糾正。
- 實際應用:將學到的短語運用到日常交流中,這不僅有助於記憶,還能增強自信心。
運用這些技巧,不僅能提升你的聽力和口語能力,還能加深對技術性內容的理解。影子說話(shadow speech)是一個值得探索的學習工具,通過在影子說話網站上進一步練習,可以持續提升你的英語能力。
什么是跟读法?
跟读法 (Shadowing) 是一种有科学依据的语言学习技巧,最初开发用于专业口译员的培训,并由多语言者Alexander Arguelles博士普及。这个方法简单而强大:您在听英语母语原声的同时立即大声重复——就像是一个延迟1-2秒紧跟说话者的影子。与被动听力或语法练习不同,跟读法强迫您的大脑和口腔肌肉同时处理并模仿真实的讲话模式。研究表明它能显着提高发音准确性,语调,节奏,连读,听力理解和口语流利度——使其成为雅思口语备考和真实英语交流最有效的方法之一。