3415 BTU = 1 kva
The PDF uses kilowatt but they should be close enough...
Yes, a 60 kVA generator can power a load of 28,000 BTUs, provided it has sufficient capacity. To determine if the generator can handle the load, you need to convert BTUs to watts: 28,000 BTUs is approximately 8,225 watts (using the conversion of 1 BTU/hr = 0.293 watts). Since 60 kVA translates to about 48 kW (assuming a power factor of 0.8), the generator can accommodate the 28,000 BTU load with ample capacity to spare.
There is appoximately zero kVA in 14amp, .5 volt AC.
To convert VA (volt-amperes) to kVA (kilovolt-amperes), you divide by 1,000. Therefore, 100 VA is equal to 0.1 kVA, since 100 VA ÷ 1,000 = 0.1 kVA.
35kW is 119,424.97 BTU/hr
It is apples and oranges--kVA and volts are different units describing different things. Determining kVA requires measuring both voltage and current.
The answer: 17070 BTU The math: 3414 BTU = 1 KVA (KW) so 5 KVA = 17070 BTU
12000 BTU is equivalent to approximately 3.51 kVA.
Inverters and generators are not rated in BTU's (British Thermal Units). They are rated in KVA (Kilovolt amps) and KW's (Kilowatts). These two values are the product of amps times volts. KVA times PF (Power Factor) = KW.
To determine how many hours a 12,000 BTU air conditioner can run on a KVA inverter system, you first need to convert BTUs to watts. A 12,000 BTU unit typically consumes around 1,200 watts. If your inverter system is, for example, 1 KVA (1,000 watts), it would not be able to power the air conditioner continuously, as the AC requires more power than the inverter can supply. Therefore, the air conditioner would run for a limited time, depending on the battery capacity of the inverter system and its efficiency.
1500 hours is eual to roughly 20 moths. Of course I just had to make up a definition for the brand new word eual. Eual is a factor for determining the number of insects that can be produced in a given time under certain conditions of available food and predation. one moth is eual to about 75 hours (depending on the moth species. In comparison, 1500 hours is eual to 114 Monarch butterflies.
0.75kg = 750,000mg
3Ft.
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.
kva and kw are related as KVA = (KW/PF) pf:power factor
1000 VA = 1 kva
5.9311165 billion Indian rupees
Yes, a 60 kVA generator can power a load of 28,000 BTUs, provided it has sufficient capacity. To determine if the generator can handle the load, you need to convert BTUs to watts: 28,000 BTUs is approximately 8,225 watts (using the conversion of 1 BTU/hr = 0.293 watts). Since 60 kVA translates to about 48 kW (assuming a power factor of 0.8), the generator can accommodate the 28,000 BTU load with ample capacity to spare.