Kg-meter required for 1 MWH generator

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In summary: N-m as a unit of energy, you are not because N-m = Joules which are units of energy. So 3,600,000,000 N-m = 3,600,000,000 Joules.As for the "Helpful" button, unfortunately there is no way to mark a reply as helpful or mark a thread as solved here. You can only continue the discussion or ask follow-up questions.
  • #1
pmk69
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Dear Friends,

I need some details to run 1 MW Generator. I found that 3600 Mega Joules/hour (3.6 Giga Joules/hour) required to run 1 MW Generator for 1 hour i.e 1 MWH.

3600 Mega Joules/hour = 102,000 Kg-m/sec.

I want to know that Can we run 1 MW Generator (1500 rpm) for 1 hour to supply 1 MWH using this 102,000 Kg-m/sec. Or Only able to run the 1 MW Generator for 1 sec using that 102,000 kg-m/sec?

Help highly appreciated.

thank you
pmk69
 
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  • #2
A 1 MW generator, if properly designed, will deliver 1 MW as long as it has fuel. Not just 1 second.
 
  • #3
102,000 kg-m/sec force enough to run 1 MW Generator (1500 rpm) for 1 Hour? This is what I actually need?
OR
102,000 Kg-m/sec - required to run 1 MW Generator for 1 sec?
60 x 102,000 = 6120000 Kg-m/minute - required to run 1 MW Generator for 1 minute?
60 x 6120000 = 367,200,000 Kg-m/hour - required to run 1 MW Generator for 1 hour?

thanks
pmk69
 
  • #4
Power (in Watts) = Torque (in Newton meters) * Angular velocity (in Rads/s)

so

Torque = Power/Angular velocity

at 1500 rpm the angular velocity in rads/s is...

= 2∏ * 1500/60
= 157 rads/s

Therefore..

Torque = 1,000,000/157 = 6369 Nm

So your generator appears to require a motor capable of producing 6369 Nm of torque at 1500 rpm.

Edit: Your generator will keep delivering 1MW for as long as your motor keeps delivering 6369 Mn at 1500 rpm.
 
  • #5
If I have understood correctly you mean..

102,000 kg-m/sec = 102,000 x 9.8 = 999,600 Nm/sec

Now..

force (in Newtons) * velocity (in m/sec) = power (watts)

so what you are saying is that your source is 999,600W.

Since 999,600W < 1,000,000W the answer to your question appears to be no.

However even if you decide it's close enough your data still doesn't have enough info to answer the question fully. For example how is your source power delivered? Is it in the form of electrical power? linear motion? rotary motion at the right rpm?

The generator needs 1MW (6369 Nm, at 1500 rpm) where as you have 0.99MW (?Nm, at ?? rpm).
 
  • #6
The difference between 999600 W and 1 MW is negligible and stems from rounding errors. The OP converts MW into kg m/sec (I don't know why). I think the word second is the key because it makes pmk69 think the generator would run for only a second.
On the other hand, perhaps the OP just want to ask the amount of energy needed to run the generator 1 hour, but it isn' so clear.
 
  • #7
Is it in the form of electrical power? linear motion? rotary motion at the right rpm?

Hi CWatters,

Thanks for your reply. Available energy is in the form of Linear and it should be converted into Rotary Motion using Gear Box (Like Wind Mill) to give required RPM, For example 1500 RPM, to run a 1 MW Generator. So, I need to know whether the said (1,02,000 Kg-m/Sec) energy can be used to run a 1 MW Generator for 1 Hour to produce 1 MWH?

I think the word second is the key because it makes pmk69 think the generator would run for only a second.

Yes Gordianus. This is where I need clarification. Can we run 1 MW Generator for 1 Hour to produce 1 MWH using this 102,000 Kg-m/s?
 
  • #8
In my book "Kg-m/Sec" is a ambiguous unit because force isn't measured in kg but Newtons. So can you tell us how you arrived at 1,02,000 Kg-m/Sec ?

kg.m/sec looks like force (kg) x velocity (m/s) which equals power not energy. So asking how long it will run a 1MW generator is meaningless. It's like asking how long can a 100bhp car engine can deliver 100bhp?As I said above..

102,000 kg-m/sec = 102,000 x 9.8 = 999,600 Nm/sec = 0.99 MW which is less then 1MW so the short answer is no. You can't run a 1MW generator from 102,000 kg-m/sec for any length of time (but it's close if you ignore losses in the generator and gearbox).
 
Last edited:
  • #9
In my book "Kg-m/Sec" is a ambiguous unit because force isn't measured in kg but Newtons. So can you tell us how you arrived at 1,02,000 Kg-m/Sec ?

This is the URL that I referred. You can also check that:

http://www.convert-me.com/en/convert/power/

Simply to say, How much energy (in Kg-m) I need to run 1 MW generator for 1 hour. I have to store available mechanical energy (Linear) and used that energy to run the Generator.

thanks
pmk69
 

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  • #10
pmk69 said:
Simply to say, How much energy (in Kg-m) I need to run 1 MW generator for 1 hour. I have to store available mechanical energy (Linear) and used that energy to run the Generator.

Ah that's a slightly different and easier question...

First let's assume the generator and gear box are 100% efficient..

Energy (in Joules) = Power (in Watts) * Time (in seconds)

= 1MW * 3600 Seconds = 3,600 MJ

You can then convert that to other units...

3600 MJ = 3600 M N.m or

3,600,000/9.8 = 367,346 Kg-m

Could be done with 367,346 kg of water lifted 1 meter or 36,735 kg lifted 10m etc

However most generators are going to be less than 40% efficient so in practice you need to store at least 100/40 = 2.5 times that much energy and probably more like 4 times. Plus whatever the pump uses to lift the water into storage.
 
  • #11
this is what I actually need. If I want to run 1 MW generator (for example, theoretically 100% efficient) for 1 hour is 367,346 kg-m.

For 24 Hrs = 367,346 x 24 = 8,816,304 kg-m
For 365 Days(1 Year) = 8,816,304 x 365 = 3217950960 kg-m
i.e. 3217950.96 tonnes-m or 3.21 million tonnes - m

Is this correct?

anyway great thanks to you.

pmk
 
  • #12
how to mark the "Helpful" button?
 
  • #13
if reply is helpful to solve the issue, we have to mark the reply as "Helpful" and Mark the thread as "Solved"? How can we do it here?

thanks
pmk69
 
  • #14
Is this conversion correct?

3600 MJ = 3600 M N.m or

3,600,000/9.8 = 367,346 Kg-m

OR

this one is correct?

3600 MJ = 3,600,000,000 Joules = 3,600,000,000 N-m = 36,000,000 Kg-m

regards,
pmk69
 
  • #15
EDIT: Nevermind, it all become clear.
 
  • #16
pmk69 said:
3,600,000,000 N-m = 36,000,000 Kg-m
The units are different, they are not the same. And even if you add a factor of g, there is one digit missing.

3,600,000,000 Nm = 360,000,000 kg*m * g
(with the approximation of g=10m/s^2)
 
  • #17
pmk69 said:
if reply is helpful to solve the issue, we have to mark the reply as "Helpful" and Mark the thread as "Solved"? How can we do it here?

Those features are not enbled here on the PF.
 

1. What is a Kg-meter and how is it related to a 1 MWH generator?

A Kg-meter is a unit of measurement for torque, which is a measure of the amount of force acting on an object to cause it to rotate. In the context of a 1 MWH (megawatt-hour) generator, it is used to determine the amount of torque required to produce 1 megawatt of power for 1 hour.

2. How do you calculate the Kg-meter required for a 1 MWH generator?

The calculation for Kg-meter required for a 1 MWH generator involves multiplying the power output of the generator (1 megawatt) by the time it will run for (1 hour) and dividing by the rotational speed of the generator in revolutions per minute (RPM). This will give you the torque required in Kg-meter.

3. What factors can affect the Kg-meter required for a 1 MWH generator?

The Kg-meter required for a 1 MWH generator can be affected by various factors such as the design and efficiency of the generator, the type of fuel used, the load on the generator, and any external forces acting on the generator (such as wind or water).

4. Can the Kg-meter required for a 1 MWH generator change over time?

Yes, the Kg-meter required for a 1 MWH generator can change over time due to factors such as wear and tear on the generator, changes in the load or external forces, and maintenance or upgrades to the generator.

5. How is the Kg-meter required for a 1 MWH generator used in the real world?

The Kg-meter required for a 1 MWH generator is used in the design and operation of power plants and other large-scale generators. It helps engineers determine the appropriate size and specifications for a generator to meet the desired power output, and also helps operators monitor and maintain the generator's performance over time.

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