Kaplan Turbines | Understanding the Giants of Hydroelectricity

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  • Опубликовано: 26 ноя 2024

Комментарии • 150

  • @SabinCivil
    @SabinCivil  10 месяцев назад +67

    I hope you enjoyed the interesting engineering behind Kaplan turbines. If you have benefitted something out of this video, please consider to support us on www.patreon.com/Lesics
    Regards Sabin Mathew

    • @SwaroopKadaba
      @SwaroopKadaba 10 месяцев назад +10

      You mentioned at 5:35 that increasing area of draft tube will increase pressure so that bubbles won't form. But won't the increase in volume further reduce pressure? Because if we decrease the area too much then we know the water pressure going through the pipe will be high

    • @SabinCivil
      @SabinCivil  10 месяцев назад +10

      @@SwaroopKadaba When you increase the area, velocity decreases or kinetic energy decreases. According to energy conservation to keep the energy constant, the pressure energy has to increase.

    • @SwaroopKadaba
      @SwaroopKadaba 10 месяцев назад +2

      @@SabinCivil 👍

    • @__anonymous__.123
      @__anonymous__.123 10 месяцев назад +4

      You should focus more on the titles and thumbnails of your videos. Even if your video content is excellent, people may not click on it if the titles and thumbnails are not engaging.

    • @rustyshackleford48
      @rustyshackleford48 10 месяцев назад

      ​@@SabinCivil I'd love to see a full video on cavitation. I think your excellent animations could clear up the confusion. I've experienced it with water and fuel tanker trucks, but never have fully understood the phenomenon. Love the videos. Thanks

  • @antoniocjp5824
    @antoniocjp5824 10 месяцев назад +47

    Outstanding! Every time I saw a description of Kaplan turbines before, it would stop after saying they were meant for low head, high volume situations. I could never imagine it had variable guide vanes and rotating blades. This is really quality content!

  • @wipoute
    @wipoute 9 месяцев назад +9

    I'm a robotics engineer and back in my fluid dynamics classes in college, I've computed the relative speed between a fluid and a propeller many times, but I've never noticed that the optimal relative speed between the two was equal to the angle of attack, which now seems so obvious! Either change the angle of attack to match the relative speed of the flow or change the relative speed of the flow to match the angle of attack. Thank you for your animations, they help clarify so many concepts 🙏

  • @shashwat1187
    @shashwat1187 9 месяцев назад +6

    Amazing Video...I am in Hydro project business and can say that the quality of information you shared is spot on. This is basic but a good introduction to someone relatively new to Kaplan turbine. Great to see that info on Cavitation was also shared...just some additional information, there is a way to determine the behaviour of complete water conducting system through a process called Transient Analysis, which governs the design...

  • @reverseengineering1931
    @reverseengineering1931 9 месяцев назад +6

    I'm power engineer from India 🇮🇳....this man explained it fantastically I always love his content

  • @tibontibon5772
    @tibontibon5772 10 месяцев назад +180

    People might not know that you have a patreon, you should start mentioning it at start of the video or in bottom corner of the video.
    You also need to work on your presentation and pacing
    And do more yt shorts explaining old videos which don't get much views nowadays.

    • @p_k_2000
      @p_k_2000 10 месяцев назад +3

      #CFBR

    • @belveloper
      @belveloper 10 месяцев назад +2

      👌🏻👌🏻

    • @daniel_77.
      @daniel_77. 10 месяцев назад +4

      He should add a patreon watermark throughout the whole video in all videos. Also but not that important changing the banner to add social media and support stuff

    • @Harsh8163
      @Harsh8163 9 месяцев назад

      Very nice advice

    • @connorlinehan2219
      @connorlinehan2219 9 месяцев назад

      For all the brain-rotted individuals out there who like to throw away their money on the internet, exactly

  • @bhuuthesecond
    @bhuuthesecond 9 месяцев назад

    My man, never change your accent. It’s so amazingly Indian. I love it!!

  • @kenoliver8913
    @kenoliver8913 9 месяцев назад +3

    A good video but I have a nitpick. It is not an airfoil to produce lift, it is a HYDROFOIL. This is important because unlike air water is incompressible so the mathematics, and hence the profile, of an efficient hydrofoil is quite different from that for an airfoil.

  • @AlbertaGeek
    @AlbertaGeek 10 месяцев назад +7

    I did not know that about the spiral thingamabobs. *Very* interesting!

  • @vasudev2111
    @vasudev2111 9 месяцев назад +1

    Please take it as my suggestion. Being a Engineer I can suggest please try to show correct direction of rotation of the turbine. Because it may lead to wrong information or wrong education.
    Video is very intuitive. Good job. Please bring more.

  • @ethanebang8902
    @ethanebang8902 10 месяцев назад +17

    Question: If the output water pressure is low then shouldn't the outlet be converging instead of diverging?

    • @AmandeepSingh-bj9dm
      @AmandeepSingh-bj9dm 10 месяцев назад +5

      Use continuity equation, large cross-section reduce velocity and because total energy of fluid needs to be coatant, it's pressure will increase

    • @zorrothebug
      @zorrothebug 10 месяцев назад +4

      @@AmandeepSingh-bj9dm so... basically anti-venturi effect?

    • @AmandeepSingh-bj9dm
      @AmandeepSingh-bj9dm 10 месяцев назад +4

      @@zorrothebug yup

  • @vitormacedo4144
    @vitormacedo4144 10 месяцев назад +2

    Excellent video. The 3d tunes comparison was awesome.

  • @JuliusUnique
    @JuliusUnique 10 месяцев назад +6

    those blades truly are beautifully shaped!

  • @bl2575
    @bl2575 10 месяцев назад +11

    Great video, and very clear graphics.
    You explained how they regulate alternative current, but how do they align the phase of the alternative current with the phase of the electric grid?

    • @analog_guy
      @analog_guy 10 месяцев назад +4

      The generators are also motors. If a generator is receiving extra power from its turbine, the generator tries to rotate slightly faster and thereby it tries to advance its phase with respect to the phase of the grid. In so doing, the grid demands more power from it and thereby increases the load on it, inhibiting it from any further advancement. When a generator is receiving reduced power from its turbine, the opposite happens. Thus, all the generators are kept in lock step, so to speak. When a generator is first being brought on-line, its speed first is adjusted under local control until its frequency and phase are matched to that of the grid. Then the switches are engaged to place it online. If the switches are engaged when the generator is out of phase with the line, bad things happen! (Excessive current and excessive torque trying to jerk it into alignment.)

  • @infinitymixers5344
    @infinitymixers5344 10 месяцев назад +5

    Outstanding explanation!

  • @themores9204
    @themores9204 6 месяцев назад

    Bro you're a proper Engineer, you're goated

  • @samochembene7627
    @samochembene7627 9 месяцев назад +1

    🎯 Key Takeaways for quick navigation:
    00:00 💡 *As turbinas Kaplan são as maiores entre todas as turbinas hidráulicas.*
    01:09 🔄 *As turbinas Kaplan são mais adequadas para situações de grande fluxo de água e alta queda.*
    02:18 🔧 *As comportas-guia das turbinas Kaplan regulam o fluxo de água de acordo com a demanda de energia.*
    03:13 ⚡ *As lâminas das turbinas Kaplan são rotacionadas para manter a velocidade constante do rotor, mantendo a frequência da eletricidade produzida constante.*
    04:38 🌪️ *As lâminas das turbinas Kaplan são torcidas para manter o ângulo de ataque ótimo em relação à velocidade relativa da água.*
    Made with HARPA AI

  • @jolibethrodriguez7471
    @jolibethrodriguez7471 8 месяцев назад +1

    Fun fact I recently leaened, Without Kaplan Turbines I couldn't have wtached this video because the make the bulk of my Country's grid

  • @Life_42
    @Life_42 10 месяцев назад

    Lesics! The best engineering channel!

  • @akashsahu2571
    @akashsahu2571 10 месяцев назад +1

    it is always great to watch your videos

  • @mvadu
    @mvadu 10 месяцев назад

    I like the new format with your hands on experiments

  • @maximilianyuen
    @maximilianyuen 10 месяцев назад +7

    5:40 same volume of water, increased area, isn't it making the pressure even lower?

    • @zorrothebug
      @zorrothebug 10 месяцев назад

      Thank you, was about to ask the same.

    • @white_shadow_123
      @white_shadow_123 10 месяцев назад

      Yeah, I was just about to ask this.

    • @zorrothebug
      @zorrothebug 10 месяцев назад +6

      ok I got an answer under some other comment who asked basically the same question. By increasing the diameter you slow down the flow thus increasing the pressure. It's basically the opposite principle as the Venturi effect.

  • @garygrenier
    @garygrenier 10 месяцев назад +1

    its not just "lift" force its also just physical force on the blade. Same concept as an aircraft's "Angle of Attack". Both forces are at play.

  • @skeols
    @skeols 10 месяцев назад

    Very good video. I am surprised that the water flows parallel to the axis of the turbine, this video clarified many things for me. Not that I do anything useful with that specifically, but it is very entertaining to know and you never know if by association the idea is useful for something else.

  • @johnbarilovits3721
    @johnbarilovits3721 10 месяцев назад +2

    The cavitation "bubbles" don't burst, they collapse.

  • @mosermesser788
    @mosermesser788 10 месяцев назад +1

    Very well explained!

  • @pilotoheli
    @pilotoheli 9 месяцев назад

    I have always thought that Francis Turbines were the ones meant to be used in high-pressure applications. Engineering isn't always so straightforward. I remember being about 12 years old visiting a hydropower facility that had a nice set of 8 Kaplan turbines, and when visiting the generator room, it was really hard to envision that I was actually over that huge case embedded in the concrete of the dam. The noise of that water rushing was really overwhelming.

  • @kimseymour8896
    @kimseymour8896 9 месяцев назад

    This was a really good video thank and God Bless you

  • @deathsinger1192
    @deathsinger1192 10 месяцев назад

    Great Video, you are doing good work!

  • @6o6rov
    @6o6rov 10 месяцев назад +2

    How is increasing the volume of the tube after the turbine increases the pressure of the water? Shouldn't it be the other way around?

  • @john20johnny
    @john20johnny 9 месяцев назад

    Really thank you for your videos ❤

  • @Leveler93
    @Leveler93 9 месяцев назад +1

    Great Video! Why does the water pressure increase when the pipe is wider at the end? Should it not decrease because pressure is Force/Area?

  • @sajal5150
    @sajal5150 10 месяцев назад +1

    great as always

  • @JackTheBeast88
    @JackTheBeast88 10 месяцев назад +2

    Wait, why does the pressure increases if th tube gets larger? Shouldn't be the other way around?

  • @TalooshDaBoss
    @TalooshDaBoss 10 месяцев назад +3

    What Wrx owners want when they say their turbo isnt big enough

  • @Spoorthi1234
    @Spoorthi1234 10 месяцев назад +1

    Great example for axial flow turbine. Can you please add vedio on Francis turbine, a radial inward flow reactiin turbine....

  • @NunoEleven
    @NunoEleven 8 месяцев назад

    Wonderful job

  • @totherarf
    @totherarf 10 месяцев назад

    I could be wrong but are there not two separate forces acting on the blades?
    Splitting the water flow would cause a low pressure area blow each blade as is discussed but also the water hitting the top of the blade would be forced to deviate from its straight path thus imparting an inertial force to the blade.
    The amount of force imparted to the blade would depend on the angle and the speed of the water, both of which are variable.

  • @gergogencsi4342
    @gergogencsi4342 4 месяца назад +1

    Hi I study water engineering and please somebody can help me what kind of program did you use for the 3D animations?

  • @jdstepek
    @jdstepek 10 месяцев назад

    Amazing video as always

  • @nabinrana6081
    @nabinrana6081 9 месяцев назад

    Lesics is the best

  • @academiadaeletricidade
    @academiadaeletricidade 10 месяцев назад

    It’s an AI voice? Really nice!
    I’ve an electricity channel and this animation video is my dream to one day built a vid like that

  • @__anonymous__.123
    @__anonymous__.123 10 месяцев назад +5

    You should focus more on the titles and thumbnails of your videos. Even if your video content is excellent, people may not click on it if the titles and thumbnails are not engaging.

  • @swachh_bharat
    @swachh_bharat 9 месяцев назад

    Great as always ❤❤

  • @gilmarfv
    @gilmarfv 9 месяцев назад

    Very interesting! 👍🏻👍🏻

  • @hardworkerforlife4081
    @hardworkerforlife4081 9 месяцев назад

    It was a good video. My question is how does it filter out rocks tree limbs and stuff like that?

  • @lultopkek
    @lultopkek 10 месяцев назад

    nice man i learned something

  • @viveknirkhe8396
    @viveknirkhe8396 10 месяцев назад +1

    Nice concept ❤👍🏻

  • @Welterino
    @Welterino 10 месяцев назад

    Awesome video

  • @thabangmashabela6837
    @thabangmashabela6837 9 месяцев назад

    Can you do a video on pelton turbines going more into the detailed physics behind them

  • @therevprogamers
    @therevprogamers 9 месяцев назад +1

    5:37 How can increasing the diameter of the pipe for an already low pressure stream increase the pressure?
    The velocity is low and increasing the area will reduce velocity even further, which then will reduce the pressure right?

    • @rahulvats95
      @rahulvats95 7 месяцев назад

      No, Energy is conserved, thus the Bernoulli Principle is applicable here, Kinetic Energy + Pressure Energy+Gravitational Potential Energy = Constant.
      Thus as Kinetic energy drops, Potential energy is unchanged, then the pressure Energy must rise.

  • @HeetRaychura
    @HeetRaychura 10 месяцев назад

    Nice informative video!

  • @nea123-2
    @nea123-2 9 месяцев назад

    Best video ever seen

  • @wodell586
    @wodell586 10 месяцев назад

    Thank you

  • @Ak_Singh_4420
    @Ak_Singh_4420 10 месяцев назад

    nice explination sir 👍👍👍👍

  • @viktoreisfeld9470
    @viktoreisfeld9470 7 месяцев назад

    Why does increasing the size of the draft tube with an end flare reduce the cavitation effect? One would think that increasing the volume of the tube in a low pressure situation would future decrease the water pressure resulting in more cavitation. I guess, because it causes an increase in flow rate that results in a pressure increase to more than compensate for the increase in post turbine tube volume?

  • @Praveen_De_Silva
    @Praveen_De_Silva 9 месяцев назад

    Superb ❤

  • @truko22
    @truko22 10 месяцев назад +1

    Excelente 👍

  • @mohammadkanakri3039
    @mohammadkanakri3039 9 месяцев назад

    Thank u

  • @Somens8Dworld
    @Somens8Dworld 10 месяцев назад +10

    i am first😂🎉

    • @Starlink502
      @Starlink502 10 месяцев назад +2

      Here take the gold medal 🏅
      Lol

  • @AbhishekMishra1984
    @AbhishekMishra1984 9 месяцев назад

    Thanks

  • @Ju13n1s2e9
    @Ju13n1s2e9 9 месяцев назад

    05:14 This I struggle to understand. At 05:34 the increase of area is explained as the solution - how can the pressure get higher of this?

  • @krushnajadhavar4539
    @krushnajadhavar4539 10 месяцев назад +2

    I know but representation is the best ❤

  • @VIKASHV-ml8lm
    @VIKASHV-ml8lm 9 месяцев назад

    ❤ Nice sir.

  • @JVG_2009
    @JVG_2009 9 месяцев назад

    Please make a video on hydraulic motor.

  • @leopard6554
    @leopard6554 10 месяцев назад

    Nice 👌

  • @sumitsutradhar2085
    @sumitsutradhar2085 9 месяцев назад

    Very nice👍👍👍

  • @giovannimazzon3668
    @giovannimazzon3668 10 месяцев назад

    Kaplan are good only for hydroelectric power plants with relatively low jumps, otherwise you would go for a Francis or a pelton turbine

  • @ouroesa
    @ouroesa 10 месяцев назад

    Would think if a lift force wasworking on the top surface of the blade, it would spin the other way (pulling the top of the blade in the direction it is facing.
    Isnt this just kinetic energy turned into rotational energy?
    Edit: I see what they mean - the lift force is at the bottom of the blade and not the top. Still not sure that this is that majority of the force that turns the turbine.

  • @brianowens9060
    @brianowens9060 9 месяцев назад

    Just curious. Im not a scientist but is it an airfoil or a hydrofoil?

  • @JP_TaVeryMuch
    @JP_TaVeryMuch 10 месяцев назад

    Thank you for both enlightening me and confirming how much of a smartarse I am.
    I hadn't thought about blades being aerofoils.
    I'm still uncertain what the blades look like in those special hydro plants which are used as instant suppliers of electricity when there's a surge in demand. You know, the ones that pump the water back up to a top reservoir at night when the cost of electricity is cheaper.

  • @PacoOtis
    @PacoOtis 7 месяцев назад +1

    Why is this design not on large ships?

    • @cegicreator2476
      @cegicreator2476 2 месяца назад

      it is. it's called a screw. the reason why it's called that is because the first propellers were actual screws.

  • @VR.christianoo
    @VR.christianoo 9 месяцев назад +1

    5:34 how could increasing area result into increasing pressure 🤔
    increasing in surface area of water wouldn't result into more bubbles ?
    Or its that the increased area will allow air to flow in opposite direction of water to manage pressure
    Wouldn't it be dangerous 🤔🤔🤔🤔🤔
    Aaaaaa can't understand

  • @karthikp2650
    @karthikp2650 2 месяца назад

    Please explain relative velocity

  • @danushkabasnayaka3465
    @danushkabasnayaka3465 10 месяцев назад

    I am bit confused how angle of attach is optimum when it is along the blade but not perpendicular to the blade. Can't that perpendicular angle of attach produce more energy harvest

  • @kuldeepsankpal6443
    @kuldeepsankpal6443 9 месяцев назад +1

    Why is it called airfoil 0:27 when it is in water. 😅

  • @alishir4871
    @alishir4871 Месяц назад

    What is cavitation??

  • @1schwererziehbar1
    @1schwererziehbar1 10 месяцев назад

    yes I benefit

  • @CrypticCode97
    @CrypticCode97 10 месяцев назад

    If the generator has to run at a specific RPM how can the power output increase if it cant spin faster? I get that the vanes increase the flow rate and the blades adjust to maintain rpm but how does that increase output?

    • @VictorQuesada-bl1xk
      @VictorQuesada-bl1xk 10 месяцев назад +1

      My (limited) understanding is that as load increases, so does the resistance experienced by the generator, and thus the turbine. By having more water flowing over the blades and adjusting the angle of those blades, the extra lift can generate more power by pushing back harder on the generator, overcoming the resistance to maintain output frequency.

  • @EyesOfByes
    @EyesOfByes 10 месяцев назад

    Make a video about Tesla turbines (Yes guys, that's a thing)

  • @soldtobediers
    @soldtobediers 9 месяцев назад

    Now set them to work on the constant flow power of the oceans' currents & shoreline waves. ~ ''gIDDY uP !!!

  • @savneetsinghrairai6823
    @savneetsinghrairai6823 9 месяцев назад

    Same like a turbo does in an internal combustion engine

  • @vitormacedo4144
    @vitormacedo4144 10 месяцев назад

    Valeu!

  • @animalmonstruo3603
    @animalmonstruo3603 9 месяцев назад

    Sería genial que doblarais vuestros vídeos al español

  • @factswithsatish
    @factswithsatish 4 месяца назад

    Explain polavaram project in india

  • @anantabiswas-o5v
    @anantabiswas-o5v 7 месяцев назад

    How You Make This Video ❤ can you say me

  • @Abhijith95_
    @Abhijith95_ 9 месяцев назад

    Is the presenter malayali ❤️❤️❤️❤️❤️❤️❤️❤️

  • @ciroweinstein8627
    @ciroweinstein8627 9 месяцев назад

    kool!!

  • @abubakargabol8134
    @abubakargabol8134 10 месяцев назад

  • @mangjay80
    @mangjay80 10 месяцев назад

    Wow mantaf

  • @bangkitwiranata3160
    @bangkitwiranata3160 9 месяцев назад

    Like a mikrohidro turbine

  • @kyruzarnejo7472
    @kyruzarnejo7472 10 месяцев назад

    2:25 it looks a VNT/VGT Turbo but ginormous

  • @alexjr.remegio5847
    @alexjr.remegio5847 2 месяца назад

    Does Anyone got any idea where I can buy 500Watts Model?

  • @melds5415
    @melds5415 10 месяцев назад

    👏👏👏👏👏

  • @tsunakbayev
    @tsunakbayev 9 месяцев назад

    👍👍👍

  • @talusranch990
    @talusranch990 9 месяцев назад

    Ownage pranks did the narration

  • @panupentikainen953
    @panupentikainen953 10 месяцев назад

    I sell Kaplan turbines and still learned something new. :)

  • @hazymidi6352
    @hazymidi6352 9 месяцев назад

    every diagram and animation shows governor blades stationed verticaly, butin reality what about the fact that there are facilities with no casing structure but a concrede spiral chamber (wtich does the same job) the turbine sits on/inside the floor, the intake and the governor blades are positioned inside a narowing shroud about 40 cm from the floor, and the governor blades are positioned not verticaly but at an angle about 30 degrees (it could be less i have never mesured them down there) betwen the cros section and ground simply imagine a 90 degre angle where the hipotenuse is the cros section of the governor blade, the bottom cathetus is the floor , and the side cathetus would be the shaft, is there a efficency benefit in my described system becuse the water does not have to make a 90 degree turn. or am i just misunderstanding something , because now that i understand that it is a flow floil thing and not the other way around that the blade must be perpendicular towards the flow. Anyway grate video. Ps My family owns a small plant and im an operator and mechanic (self taught mentored by my father)

  • @napsguns
    @napsguns 10 месяцев назад

    These blades are an "airfoil"? air is a compressible fluid, water is not and these blades are designed differently.

  • @talusranch990
    @talusranch990 9 месяцев назад

    Also the LEAST powerful of the 3 major turbine types