Continuous Load Circuit

[tryinghard]

Is Article 210 specifically the code to qualify how to circuit a continuous load?

As example in 2002 424-3(B): "The ampacity of the branch-circuit conductors and the rating or setting of overcurrent protective devices supplying fixed electric space-heating...shall not be less than 125% of the total load"
and 2005 424-3(B): "Fixed electric space-heating equipment shall be considered continuous load"

 

[ibew441dc]

When your dealing with when and where to apply the term continuous load
do not over look the definition in article 100.

 

[ibew441dc]

Is Article 210 specifically the code to qualify how to circuit a continuous load?

If I understand your question correctly I would say that 210.19(A)1 is the section in Article 210 that mandates how to size branch circuit conductors when they supply a load that is considered continuous .

 

[tryinghard]

If I understand your question correctly I would say that 210.19(A)1 is the section in Article 210 that mandates how to size branch circuit conductors when they supply a load that is considered continuous .

So 424-3(B): "Fixed electric space-heating equipment shall be considered continuous load" means I shall [must] use 210-19(A)1 to install the circuit because it is continuous.

So a branch-circuit size for a 4000 watt heater is calculated at: 1.25 x 4000 = 5000/240 = 20.83A, can this be a 20A circuit or does the fraction .83 cause it to be 30A?

 

[jerm]

can this be a 20A circuit or does the fraction .83 cause it to be 30A?

You have something against a 25A breaker?

 

[ibew441dc]

So 424-3(B): "Fixed electric space-heating equipment shall be considered continuous load" means I shall [must] use 210-19(A)1 to install the circuit because it is continuous.

So a branch-circuit size for a 4000 watt heater is calculated at: 1.25 x 4000 = 5000/240 = 20.83A, can this be a 20A circuit or does the fraction .83 cause it to be 30A?

220.5(B)

I didn't write it , I just accept it.

 

[jerm]

So a branch-circuit size for a 4000 watt heater is calculated at: 1.25 x 4000 = 5000/240 = 20.83A, can this be a 20A circuit or does the fraction .83 cause it to be 30A?

Put your meter on it. What? It's 243 volts? That's okay, the poco can deliver up to 10% more or less than the nominal voltage.

5000/243=20.5 round down and use a 20a two pole. All set!

 

[tryinghard]

You have something against a 25A breaker?

I use them gladly :grin: , but I think 240-4(D) tells me not to in my example situation.

 

[tryinghard]

220.5(B)

I didn't write it , I just accept it.

I'm not so sure this article can apply because it's used only for "computing branch-circuit, feeder, and service loads".

I tend to agree with you but how does your answer with my example apply differently than installing dwelling units according to the 3VA or even non-dwelling to 180VA?

There have been great discussions here that Article 220 is for calculations only and not to install, even though most of us do install non-dwelling recept.'s honoring the 180VA calculation. The interesting thing is we are supposed to use Article 220 to install feeders and services :-?

I think NEC needs to clarify how to apply "continuous load", the 2002 424-3(B) version was clear. Maybe 210-19 needs an (A)(2) for clarity of specifically how to apply a continuous load?

 

[tryinghard]

Put your meter on it. What? It's 243 volts? That's okay, the poco can deliver up to 10% more or less than the nominal voltage.

5000/243=20.5 round down and use a 20a two pole. All set!

I would use this but maybe Article 220 does apply and if so 220-5(A) tells me I "shall" use 240V.

 

[jerm]

I would use this but maybe Article 220 does apply and if so 220-5(A) tells me I "shall" use 240V.

I was being sarcastic...

 

[tryinghard]

In summary correct circuit sizing for fixed heaters see:
424-3(B) "Fixed electric space-heating equipment shall be considered continuous load"

Now follow the trail for installing a continuous load:
210-19(A)(1) Conductors, "Branch-circuit conductors shall have an ampacity not less than the maximum load to be served. Where a branch circuit supplies continuous loads...the minimum branch-circuit conductor size...shall have an allowable ampacity not less than...125 percent of the continuous load."

210-20(A) Overcurrent Protection, "Where a branch circuit supplies continuous loads...the rating of the overcurrent device shall not be less than...125 percent of the continuous load."

Notice its not 80% (the reciprocate of 125%) of branch-circuit rating like what's stated in 210-23(A)(1)

An example circuit of a 3000W 240V fixed heater is:
Conductors: 1.25 x 3000 = 3750 so 3750/240V = 15.6A, #12 THHN
Breaker: 1.25 x 3000 = 3750 so 3750/240V = 15.6A, 20A

An example circuit of a 2000W & 1500W 240V fixed heaters is:
Conductors: 1.25 x 3500 = 4375 so 4375/240V = 18.2A, #12 THHN
Breaker: 1.25 x 3500 = 4375 so 4375/240V = 18.2A, 20A

An example circuit of a 4000W 240V fixed heater is:
Conductors: 1.25 x 4000 = 5000 so 5000/240V = 20.8A, #10 THHN
Breaker: 1.25 x 4000 = 5000 so 5000/240V = 20.8A, 30A