How do you convert TR ton of refrigeration to kilowatts kW?

How do you convert TR ton of refrigeration to kilowatts kW?

1 Ton = 3.5169 kW That means that 1 ton of refrigeration is equal to 3.52 kilowatts.

How do I convert kW to tons?

We use a conversion factor of 3.5168 kW/Ton of cooling. The theory is below. Therefore, 1 Ton of cooling = (12,000 BTU/h)*(1 kWh)/(3412.142 BTU) = 3.5168 kW. So if you want to figure out how many Tons of cooling is required for x number of kW of power consumed [or heat generated], simply divide the total kW by 3.5168.

How do you calculate kwh of refrigeration?

Using the energy equation of Q = ṁ x Cp x ΔT we can calculate the cooling capacity. We add 273.15K to the celcius to convert it to units of Kelvin. The Specific heat capacity (Cp) is measured in units of kJ per kg per Kelvin. This gives us a final answer of Q = 2,500kW of cooling.

What is the kW of 1 ton AC?

3.517 kW
Popular Answers (1) cooling capacity of 1 ton is equal to 3.517 kW of power.

What does 1 ton refrigeration mean?

A ton of refrigeration is a rate of heat transfer, not an amount of heat. One ton is equal to the heat absorbed in melting 2,000 pounds (1 ton) of ice at 32°F in 24 hours (1 day). This equates to 12,000 Btu/hr or 12,000 Btuh.

How do you calculate refrigerant tonnage?

Some commercial and industrial refrigeration systems are rated in Tons of Refrigeration (TR, tons). A ton is the amount of heat removed by an air conditioning system that would melt 1 ton (2000 lbs.)…Converting between Btu/h and Tons of Refrigeration.

Btu/h Refrigeration Ton kW
48000 4 14.1
54000 4 1/2 15.8
60000 5 17.6

What is the value of 1 ton of refrigeration?

The modern definition is exactly 12,000 BTU/h (3.516853 kW)….

ton of refrigeration
1 TR in … … is equal to …
SI units 3.51685 kW
Non-SI metric 3,025.97 kcal/h
US Customary and Imperial 12,000.00 Btu/h 2,593.90 ft⋅lbf/s

What is the relation between COP and kW ton of refrigeration?

You can convert kW/ton to COP as follows: Because a ton of refrigeration is equivalent to 3.517 kW. For example, if a chiller has a rating of 1.8 kW/ton, then using equation 17, the COP is 1.95. Therefore, for every 1 kW of power consumed by the chiller, it will provide 1.95 kW of cooling in the space.

How many kW is a 3.5 ton AC unit?

A typical 2,000-square-foot house has a 3.5-ton air conditioner. This size of AC unit uses about 3,500 watts per hour when it’s in cooling mode. When a central air conditioner is running in the fan-only mode, it uses approximately 750 watts per hour.

How many kW is a 2 ton AC?

As a general rule of thumb, for AC power consumption calculation you should take, 1 ton of cooling = 1,000 watts. 1.5 ton of cooling = 1,500 watts. 2 ton of cooling = 2,00 watts.

How do you calculate 1 ton of refrigeration?

How is refrigeration capacity calculated?

Divide Q (BTUs per hour) by 12,000 (the number of BTUs in one ton of cooling capacity). This yields the chiller capacity required to handle the process heat load in tons per hour: Example: 240,000/12,000= 20 tons/hr.

How many kW does a 5 ton AC use?

An average 5-ton air conditioner (with 10 EER rating) will run on 6,000 W.

How many kW is a 2 ton air conditioner?

How do you calculate kWh of refrigeration?

What is 1 ton of refrigeration explain?

How do you calculate refrigeration capacity?

How do you convert kilowatts to tons of refrigeration?

en: cooling load tons

  • es: enfriamiento de toneladas de carga
  • de: Kühllast Tonnen
  • How do I convert kW to tons of cooling?

    Therefore, 1 Ton of cooling = (12,000 BTU/h)*(1 kWh)/(3412.142 BTU) = 3.5168 kW. So if you want to figure out how many Tons of cooling is required for x number of kW of power consumed [or heat generated], simply divide the total kW by 3.5168.

    How will convert kVA and kW?

    kVA to kW calculation formula The real power P in kilowatts (kW) is equal to the apparent power S in kilovolt-amps (kVA), times the power factor PF: P(kW) = S(kVA) × PF So kilowatts are equal to kilovolt-amps times the power factor.

    How do you convert BTU to kW?

    Obtain the BTU/hr of the equipment (This can be found on the nameplate or in the catalog).

  • Divide the BTU/hr by approximately 3412.14,the result will be the equivalent kW.
  • Example: You have a 10,000 BTU portable air conditioner,what will be its capacity in kW? The result is obtained by dividing 10000BTU by 3412.14,the result is: 2,931 kW.