One ton of air conditioning capacity is equivalent to 12,000 British Thermal Units (BTU) per hour. A 3-ton air conditioning unit therefore has a cooling capacity of 36,000 BTU per hour.
The answer: 17070 BTU The math: 3414 BTU = 1 KVA (KW) so 5 KVA = 17070 BTU
The main difference between a 2 ton and a 3 ton unit is their cooling capacity. A 3 ton unit can cool a larger space more efficiently compared to a 2 ton unit. The right choice depends on the size of the area you want to cool.
6000 lbs 1 US (short) ton = 2000 lb 1 UK (long) ton = 2240 lb 1 tonne (metric) = 2204.6 lb
The RAKA 036JAS is a 3-ton air conditioning unit.
6000 lbs 1 US (short) ton = 2000 lb 1 UK (long) ton = 2240 lb 1 tonne (metric) = 2204.6 lb
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Va=volts x amps. The K stands for one thousand. So 1 Kva is one thousand watts. So 415v times 120a= 49,800 what's. You divide that by a thousand and you get 49.8. So it would be 49.8 Kva.
KVA is very simple, it is the Volts x Amps of an AC circuit in units of 1000. For a single phase AC circuit VA = E x I. KVA = (ExI)/1000 So if you have 120 VAC and 15 A then: VA = 120 x 15 = 1800; KVA = 1800/1000 = 1.8 For 3 phase circuits we need to add the square of 3 (= 1.732) as a factor. VA = 1.732 x E x I and KVA = (1.732 x E x I)/1000 So if you have 480 VAC and 23 A then: VA = 1.732 x 480 x 23 = 19,121; KVA = 19,121/1000 = 19.1 Note that KVA is higher than KW (true power) in circuits that are not purely resistive. The vector difference of the two is "Power factor".
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The formula to find amps is: I = (KVA x 1000)/(E x 1.73) I = (2500 x 1000) / (480 x 1.73) I = 2500000 / 830.4 I = 3010.597A
3 kva genrator myt be required to run 1.5ton ac.
A typical tea urn would take 2-3 kW and the kVA would be the same.
Well, honey, a 1 ton split AC unit typically requires around 3-4 KVA of power to run smoothly. So, you better make sure you've got a generator with at least that much juice if you want to keep cool when the power goes out. Don't skimp on the power, or you'll be sweating like a sinner in church.
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The result is that the transformer runs cool and contented. The '250 KVA' rating on the transformer is its maximum ability to transfer power from its input to its output without overheating, NOT an amount of power always running through it. If the 3 KVA load happens to be the only thing connected to the transformer at the time, then only 3 KVA flows into the transformer from the primary line, and only 3 KVA leaves the transformer secondary.
The answer: 17070 BTU The math: 3414 BTU = 1 KVA (KW) so 5 KVA = 17070 BTU
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