PIPE SIZING | LINE SIZING | EXAMPLE | HYDRAULICS | PIPING MANTRA |

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  • Опубликовано: 23 дек 2024

Комментарии • 149

  • @udaykumarpatankar7299
    @udaykumarpatankar7299 Год назад +1

    Thanks! Keep posting Videos

    • @PipingMantra
      @PipingMantra  Год назад

      Thank you Uday... You will not believe its our First super stickers... Thank you once again🙏🏻🙏🏻

  • @locusjhunmichael5040
    @locusjhunmichael5040 10 месяцев назад +5

    Thank you, I am a design engineer and I want to make my own choice on piping when designing an industrial plant, now that I have a basis I can easily apply for Piping.

  • @sathhai1334
    @sathhai1334 2 года назад +11

    My whole 1 week prepation explain in 12 minutes
    Waah great teaching ❤️❤️❤️

  • @akashbajpai1139
    @akashbajpai1139 9 дней назад

    great teaching and presentation .

  • @RR-em1xz
    @RR-em1xz 4 года назад +3

    @10:20, you mentioned previous lowest pipe size. Please explain what it is.

  • @DoyleneFamily
    @DoyleneFamily Год назад +1

    May I ask if can you share where did you get the velocitt table?

  • @dimitrisdimokas9442
    @dimitrisdimokas9442 2 года назад +1

    At 10:52 that you calculate the fluid velocity I can't understand why 300/(3600 * 0.32412) = 2.571m/sec. In my calculations is 0.2571m/sec

  • @subhadityachakraborty9249
    @subhadityachakraborty9249 3 года назад +2

    Very useful information

  • @adityapathak5983
    @adityapathak5983 4 года назад +2

    Wow it's amazing description ...

  • @dnyaneshwardurape253
    @dnyaneshwardurape253 4 года назад +1

    suppose i have a liquid with density 0.789 kg/lit at 25 °C so how i go for velocity assumptions

  • @vishalthorat5452
    @vishalthorat5452 Год назад

    Can you suggest for process engineer. Topics regarding process calculation.

  • @sheesh1706
    @sheesh1706 3 года назад +1

    What is “available pressure drop”

  • @222-BS
    @222-BS 10 месяцев назад

    How u got roughness factor.
    How viscosity at what temp.
    Why not c.brookes equation?

  • @optinusprime101
    @optinusprime101 4 года назад +5

    Great video. you mentioned previous lowest pipe size at 10.20, how did you get it please?

    • @egmelaku
      @egmelaku 4 года назад +2

      I have seen no such explanation! It is great! But, This is my question too, would you clarify "the previous Lowest Pipe Size of 203.2mm" Please??

    • @PipingMantra
      @PipingMantra  4 года назад +8

      By calculation we got D =206mm but if you see standard pipe size where OD is fix . so we can either with 10in 250NB or 8in 200NB. So here we have selected the later (previous) size that is 200NB and 203.2mm OD or 8in pipe.
      I hope its clear now...

  • @mkbhuin6193
    @mkbhuin6193 Год назад

    From where I can get available pressure drop

  • @sunnypatel4533
    @sunnypatel4533 Год назад

    Vacuum system flowrate is 300 m3/hr and need to calculate suitable vacuum line size ?

  • @nirmalsurendranmenon7049
    @nirmalsurendranmenon7049 Год назад

    How about calculating mach number for a pipe size by iteration

  • @sanjayparkour4373
    @sanjayparkour4373 Месяц назад

    Video time line 10:35 - Area=0.03241 m2 , if possible please correct it, the video is good . thank you so much.

  • @yanisyacine245
    @yanisyacine245 Год назад

    From where you did get the table of the recommended velocity range?

    • @michaelgwimo1859
      @michaelgwimo1859 8 месяцев назад

      Customary Liquid Velocity Range from (3ft/s to 15ft/s)

  • @ShahbazAli-kk6bj
    @ShahbazAli-kk6bj 5 лет назад +2

    Excellent work.....but from which standard would we get this recommended velocity that you have shown in a table

  • @vijaysrivatsa3216
    @vijaysrivatsa3216 3 года назад +2

    Thank you for your detailed explanation. 😀

  • @karthikramu5944
    @karthikramu5944 3 года назад

    how do you got the previous lowest pipe size and some mistakes in velocity validation with lowest pipe die and pressure drop how do you got new (viscosity value) please explain it

  • @arunsadanandpai
    @arunsadanandpai 4 года назад +2

    Very comprehensive and beautifully explained cheers

  • @maulikgangani5491
    @maulikgangani5491 3 года назад

    I am trying to design a plumbing main water supply pipeline, which supplying a water by gravity system (From over head tank). The building consists of 14 floors. In one unit I have three fixtures. (Wash basin, Bathroom & WC). Would to please guide me the steps of the calculation of pipe diameter required. I am also trying to devide pipeline in two zones. One is 1st to 14th or 7th & another is for 8th to 1st or Ground floor.

  • @lingwf4530
    @lingwf4530 2 года назад +4

    Wow! Excellent lecture! May I know the source for the recommended velocity range?

  • @jesusmartineza8499
    @jesusmartineza8499 3 года назад +2

    tank you very much for shared this lesson.

  • @ShareefKM-u5g
    @ShareefKM-u5g 26 дней назад

    Friction factor calc u can use ichurchil or colbrock and swami jayn equationss

  • @kumarsunil84
    @kumarsunil84 2 года назад

    Hi, Mam
    Can you please help
    I have to design ferule size and service pipe size from main municipal water connection to a housing complex 96 Flats
    Total water demand 96×5×135ltrs
    Size of Main municipal line is 300mm dia
    Distance from our UGR to main line is 30m
    Pressure available in main line is 12PSI.
    Please explain the method and formula to calculate tapping size(ferule) and service pipe size for our complex.

  • @ashutoshmahto8802
    @ashutoshmahto8802 4 года назад +1

    Because flexibility problem is taken care by making loops in the pipe so how will you justify your statement at 8:30 min in your video

    • @PipingMantra
      @PipingMantra  4 года назад

      You are right but under same situation , different dia pipe will have different resistive force so optimum pipe size for perticular pressure ( which have relationship with temperature) also higher the pipe size higher the load .so we have to go for optimum sizing by considering appropriate velocity.

  • @hsyn.mo4
    @hsyn.mo4 3 месяца назад

    hi sir, thanks- is it used for hydraulic system?

    • @PipingMantra
      @PipingMantra  3 месяца назад

      Yes. It is one of the methods however there are other methods as well

    • @hsyn.mo4
      @hsyn.mo4 3 месяца назад

      @@PipingMantra Thanks - what other method?

  • @dattu1238
    @dattu1238 4 месяца назад

    Madam from where u have taken the velocity table can u share it,it's helpful to me

  • @diyaazaghloul756
    @diyaazaghloul756 Год назад

    Amazing video thank you for sharing this information go on Please

  • @ziyamasad2709
    @ziyamasad2709 3 года назад

    Please let me know how to read the chart to find friction factor against Re & pipe roughness....

  • @alanc.4437
    @alanc.4437 Год назад

    Love this video .... very comprehensive and well explanation...

  • @safafayaq-ni3gy
    @safafayaq-ni3gy 3 года назад +2

    Hi , what is the source of velocity by pdf?

  • @sankarmurugesan1585
    @sankarmurugesan1585 4 года назад +5

    Hi mam
    In this seminar, initially you selected the velocity of 2.5 m/s and then calculated the dia which resulted about 206 mm. Then you selected the dia of 203.2 mm , then calculated the velocity which resulted about 2.57 m/s. Finally you finalized the dia of 203.2 mm with 2.57 m/s dia. Now i have doubt how you selected the previous lowest pipe size as 203.2 mm. And how to you select the final dia for calculating pressure drop? This is my doubt kindly guide me.

    • @PipingMantra
      @PipingMantra  4 года назад +2

      it is in the range of velocity..
      and standard dia of 8" pipe is 203.2.
      which is validated by 2.57m/s velocity

    • @sankarmurugesan1585
      @sankarmurugesan1585 4 года назад +1

      @@PipingMantra
      Yeah i got it thanks.

  • @sudeepmn
    @sudeepmn 3 года назад

    Question: There are two parallel suction pipes 560mm connected to 2 pumps and then deliver side there is common header to which on delivery pipe is connected 710mm. When both pumps run simultaneously each pump draws 1500m3/hr . In 710mm flow will be 3000m3/hr. Suction side loss 5m each pump. How will you calculate delivery head for each pump for selecting the pumps. Will the delivery pipe friction head loss be distributed among two pumps? . What about delivery side elevation?

    • @PipingMantra
      @PipingMantra  3 года назад +1

      Yes will be distributed between the pumps as the flow is fixed

  • @spacegirl12345
    @spacegirl12345 3 года назад

    Steam condensate calculation please explain

  • @dkt9962
    @dkt9962 2 года назад

    Can you make videos on interstate pipe size calculation of CNG compressor

  • @hanumateducations373
    @hanumateducations373 2 года назад

    Kindly guide me for ' how to start calculations for Mediacal gas pipeline system?

  • @dsraja3016
    @dsraja3016 5 лет назад +2

    Great work

  • @erwanpenasanchez3199
    @erwanpenasanchez3199 5 лет назад +2

    GOOD WORK.

  • @nravimec
    @nravimec 8 месяцев назад

    Good comprehensive and nice explanation thanks...

  • @diyaazaghloul756
    @diyaazaghloul756 4 года назад +1

    Amazing video

  • @ashutoshmahto8802
    @ashutoshmahto8802 4 года назад +2

    Your overall video is excellent but I have a doubt on how does decreasing pipe size would minimize flexibility problem in pipe kindly explain it

  • @scorpionmithun
    @scorpionmithun 2 года назад

    How and who decides available pressure??? Kindly reply

  • @akshaynakhate5076
    @akshaynakhate5076 3 года назад

    What about velocity of water..

  • @richiebrisk7063
    @richiebrisk7063 4 года назад +2

    Well explained. Topic for next video valve sizing and selection

    • @PipingMantra
      @PipingMantra  4 года назад

      Sure

    • @samsongnanamuthan1556
      @samsongnanamuthan1556 3 года назад

      horizontal 1950 ft straight line of 3'' dia ,40 taps X 15 lpm =600 lpm what should be the tottal head

  • @akshdaily1902
    @akshdaily1902 3 года назад

    Nice information.... In detail

  • @makaratun5527
    @makaratun5527 2 года назад

    what's about your reference book or standard?

  • @nikunjusdadiya7977
    @nikunjusdadiya7977 4 года назад +1

    Thanks for best explain. Please provide calculation of water supply pipe size with pressure and Velocity at very from floor to floor for high rise building.

  • @liubomirbonev1059
    @liubomirbonev1059 6 месяцев назад

    Than you.could you please prepare a video for restriction or if ace sizing

    • @PipingMantra
      @PipingMantra  6 месяцев назад

      You mean restriction orifice ?

  • @egmelaku
    @egmelaku 4 года назад +1

    I have seen no such explanation! It is great! But, This is my question too, would you clarify "the previous Lowest Pipe Size of 203.2mm" Please??

  • @mubashirwaseem8812
    @mubashirwaseem8812 4 года назад +1

    Very well explained, but im bit confused about "available pressure", what is mean and how we know what's would be the available pressure in 8" line?

  • @samsongnanamuthan1556
    @samsongnanamuthan1556 3 года назад

    horizontal 1950 ft straight line of 3'' dia ,40 taps X 15 lpm =600 lpm what should be the tottal head

  • @AbhishekSingh-tp3dk
    @AbhishekSingh-tp3dk 3 года назад +2

    Thanks for this...

  • @jayarajaroliveetil7517
    @jayarajaroliveetil7517 3 года назад

    Can you please send line size & pressure drop calculation for steam lines

  • @amiyakhuntiaujhhtedcvmm100
    @amiyakhuntiaujhhtedcvmm100 2 года назад

    Pls give a video of how fluid velocity & pressure affect in a pipe line & its requirement of different pipe sizes with numerical

  • @akshaysankhyan9393
    @akshaysankhyan9393 2 года назад

    Thanks mam for this amazing vedio , but I am little bit confused in last that if available pressure drop is less than 0.3983kg/cm2 than how liquid flow is obstruct or not possible and if liquid flow value is more than 0.3983kg/cm2 than how it be possible. How we can relate this value to identify that the flow is possible or not ???? And how it relates with pipe size dia.
    Pls give u valuable sujection .......

  • @BahubaliBalol
    @BahubaliBalol 15 дней назад

    Give Irrigation pipe line design in detail.

  • @suneelsinghchauhan9445
    @suneelsinghchauhan9445 8 месяцев назад

    What is previous lowest pipe size

  • @danielraja9601
    @danielraja9601 4 года назад +1

    why are you replacing P(roe) with 1/v(niu)

    • @PipingMantra
      @PipingMantra  4 года назад

      no.. its p(roe) replacing with u (meo)/ v(niu)

    • @danielraja9601
      @danielraja9601 4 года назад

      @@PipingMantra Yeah but then the numerator should've become M(meu) squared instead of just M(meu), right?

  • @Er.jitendrasahoo
    @Er.jitendrasahoo 4 года назад +1

    Pipe dia increase karne kya hota hai..step by step...ex. 150....200....250...300

  • @shanmugasundaramnarbavi1911
    @shanmugasundaramnarbavi1911 2 года назад

    Nice lecture, If the pipeline having bends, how can we calculate the pressure drop.

  • @sachinshetty6551
    @sachinshetty6551 4 года назад

    Can please explain these things for gas line sizing.

  • @dnyaneshwardurape253
    @dnyaneshwardurape253 5 лет назад +1

    make a video on types of pipe and difference between tube and pipes in details...

  • @purushothamankalivaradhan7215
    @purushothamankalivaradhan7215 4 года назад +1

    Why we shouldn't increase velocity of a fluid more than allowable velocity? What will happen if we increase?

    • @PipingMantra
      @PipingMantra  4 года назад

      These are the set range based on years of years lesson learned in industry. Higher velocity Increases errosion of pipes, vibration.
      If you go below the velocity then there can be deposition.
      Thank you for asking this. I should have explained this in video..
      please subscribe if not. Keep supporting and keep learning♥️

    • @purushothamankalivaradhan7215
      @purushothamankalivaradhan7215 4 года назад +1

      @@PipingMantra I've subscribed your channel and thank you so much for your reply. May I know why vibration happens? I wanted the reason in detail

    • @PipingMantra
      @PipingMantra  4 года назад

      @@purushothamankalivaradhan7215 you can refer Shell DEP and API RP14E

    • @farhanahmed2524
      @farhanahmed2524 4 года назад

      @@purushothamankalivaradhan7215 thank u so much mam...mam i have a little doubt ...how we calculate the friction factor f.

    • @PipingMantra
      @PipingMantra  4 года назад

      By Moody's diagram.. please watch this video i have explained that too.

  • @hassaanahmedkhan5854
    @hassaanahmedkhan5854 2 года назад

    Nice explanation

  • @johnferry1469
    @johnferry1469 3 года назад

    thank you for this video and explanation enlighten

  • @KhalilYousife-ut7xo
    @KhalilYousife-ut7xo Год назад

    Very useful lecture.. only one thing doubting me about the last equation of pressure drop, did the used one applicable only for gas? Our fluid is liquid

  • @hsf2047
    @hsf2047 Год назад

    can you share the source of the table plz?

  • @mohanakrishnan8675
    @mohanakrishnan8675 5 лет назад +1

    Preparation of PMS kindly put the video mam

  • @ernestbryan572
    @ernestbryan572 3 года назад

    Where from previous lowest pipe size pls.. I’m lost

  • @ssenhil
    @ssenhil 4 года назад +2

    Simply amazing. Thanks for making such a video.

  • @adinarayanan1990
    @adinarayanan1990 3 года назад

    Hi.. this is a very nice information. Can I use this to size the transfer pump pipe size of water and sump pump pipe size for grey water? I have the discharge known from the total fixture units

  • @keyratfane2363
    @keyratfane2363 2 года назад

    Good minded man

  • @222-BS
    @222-BS 10 месяцев назад

    WHY USED GAS EQUATION FOR LIQUID WATER.
    FOR WATER HEAD LOSS REQUIRDD.

  • @carlbinney6792
    @carlbinney6792 3 года назад

    Hi, You say "if it more that that,then we have to assume higher dia". 2.571 is higher than 2.5 ?????? plz show, great video

  • @pranaypatil3507
    @pranaypatil3507 6 месяцев назад

    For calculating Pressure Drop should be considered frictional losses via Tees, Elbows, Valves and fittings.

  • @lakshmanaraogujjala
    @lakshmanaraogujjala Год назад

    Thank you madam it helped me

  • @nguyenthaibinh4626
    @nguyenthaibinh4626 4 года назад +1

    Thank you so much!

  • @lostinlife5154
    @lostinlife5154 5 лет назад +1

    commendable work ....mam...thanks a lot..

    • @PipingMantra
      @PipingMantra  5 лет назад +1

      Thank you for commenting..keep watching keep learning.. Keep supporting🙏

  • @PANKAJPATEL-cn2xz
    @PANKAJPATEL-cn2xz 4 года назад +1

    Yes amazing. Keep going

  • @fatinnadiah6729
    @fatinnadiah6729 4 года назад

    where did u get the list of recommended velocity range? how about for natural gas and LPG?

  • @KhumGurung-ru1qo
    @KhumGurung-ru1qo 6 месяцев назад

    RE calculation- the formula after changing absolute viscosity to kinematic, either kinematic with density or only absolute viscosity shall be there...no coexistence

  • @nezukoyachima6469
    @nezukoyachima6469 3 года назад

    Life saver

  • @tkccreations9253
    @tkccreations9253 3 года назад

    Please create and upload more videos.

  • @engsherif4657
    @engsherif4657 3 месяца назад

    Good lecatcher

  • @vinaykumarbhatt2939
    @vinaykumarbhatt2939 Год назад

    blower calcualtion

  • @maheshnevase9650
    @maheshnevase9650 4 года назад +1

    Nice

  • @sambasivavuyyuru7371
    @sambasivavuyyuru7371 3 года назад

    thank you madam

  • @vivekkoul4428
    @vivekkoul4428 4 года назад

    this is such an informative video!!! Cant find like this anywhere. I have one doubt: what do u mean by available pressure drop at the end of the lecture? And how to calculate it when comparing our calculated pressure drop with it.

    • @tringuyen1979
      @tringuyen1979 3 года назад

      In my understanding, we have the pressure values at 2 ends of the pipeline. The difference of these 2 values is the available pressure drop. You can refer the beginning of the video to understand more.

  • @maxmoyal8056
    @maxmoyal8056 3 года назад

    Amazing and greatly explained...I was searching for such kind of video for long while
    Thank you mam

  • @aliabdulkadhumali243
    @aliabdulkadhumali243 2 года назад

    thank u

  • @abdallayousif5197
    @abdallayousif5197 3 года назад

    Can I contact

    • @PipingMantra
      @PipingMantra  3 года назад

      Yes

    • @abdallayousif5197
      @abdallayousif5197 3 года назад

      Im student, I have question I need to know how i can find the length of pipe required in order to keep 100 Liter water saving inside pipe,
      For example boster pump is power 1hp

    • @abdallayousif5197
      @abdallayousif5197 3 года назад

      Pipe diameter is 1 in, how I know the length of pipe required in order to keep water inside pipe, and pressure, and how i can check is the 1 hp will be enough Or I need to increase, please help me

    • @PipingMantra
      @PipingMantra  3 года назад

      Information is required like flow or velocity material of pipe and fluid properties.

    • @abdallayousif5197
      @abdallayousif5197 3 года назад

      @@PipingMantra
      PPR pipe
      Q=100 LITER PER S
      V=2.5 m /s

  • @MayankSharma-zz1mk
    @MayankSharma-zz1mk 3 года назад

    Picture and writing not very clear..

  • @JatinSharma-es8lu
    @JatinSharma-es8lu 2 года назад

    Diameter calculation wrong

  • @prashantkamble4330
    @prashantkamble4330 Год назад +2

    Your calculation is wrong please re check

  • @sunilsahu2525
    @sunilsahu2525 3 года назад

    Area= .03462

  • @henrygarmendia9636
    @henrygarmendia9636 3 года назад

    The calculated area for d=203.2 mm should be 0.0324 m2. this value should be corrected.

    • @slengoslengaw8510
      @slengoslengaw8510 2 года назад

      She mixed up the diameter and radius. D is something on the left hand side then used it as a radius to calculate area on the right hand side