›› Convert watt to Btu/hour [I.T.] Please enable Javascript to use the unit converter watt btu/hr ›› More information from the unit converter How many watt in 1 btu/hr? The answer is 0.29307107. We assume you are converting between watt and Btu/hour [I.T.]. You can view more details on each measurement unit: or The SI derived unit for is the watt.

1 watt is equal to 3.331 btu/hr. Note that rounding errors may occur, so always check the results. Use this page to learn how to convert between watts and Btus/hour. Type in your own numbers in the form to convert the units!

BTU/hr to Watts Conversion. It is a conversion calculator that is used to convert the power in BTU per hour (BTU/hr.) to power in Watts (W). The first step of using. Visual Studio 2010 Express Iso Download Italian. Quick and easy conversion from kWh (kiloWatt-hour) to BTU. Simple unit conversion tool that helps you to convert kiloWatts-hour to BTU. This calculator is.

›› Want other units? You can do the reverse unit conversion from, or enter any two units below: Enter two units to convert From: To: ›› Definition: Watt The watt (symbol: W) is the SI derived unit for power. It is equivalent to one joule per second (1 J/s), or in electrical units, one volt ampere (1 VA).

›› Metric conversions and more ConvertUnits.com provides an online conversion calculator for all types of measurement units. You can find metric conversion tables for SI units, as well as English units, currency, and other data. Type in unit symbols, abbreviations, or full names for units of length, area, mass, pressure, and other types. Examples include mm, inch, 100 kg, US fluid ounce, 6'3', 10 stone 4, cubic cm, metres squared, grams, moles, feet per second, and many more!

Re: Conversion of Amps to BTU IF anybody still needs this. I have NOT verified accuracy, just found it at another website. To determine the heat load of any electronic appliance, perform the following calculations: Determine the voltage and amp rating of the power supply of the appliance. This information is usually located either in the appliance documentation or on the appliance itself near the power receptacle. Multiply the voltage by the amperage to determine watts. For example, a DSR4020 switch has a power supply rated for 110 volts at.5 amps (per the back panel data). Its wattage is 55.

Multiply the watts by 3.413 to get BTUs/hour. For example, a DSR4020 switch produces 187.7 BTUs/hour, based on the values obtained in step 2. Re: Conversion of Amps to BTU Guys, your'e comparing apples to oranges.

The 'watts' you are reading from any label on any electrical appliance is for energy (IE. Electricity) CONSUMED by the appliance. Not how much 'heat' it produces like a '1500 watt' space heater. Yes, when it comes to HEATERS you can theorecticlly (sorry for the spelling) figure heat output from the wattage/amps of electricity it uses but that just gives you a ballpark because you have to figure the heater's loss (efficiency) converting electricty to resistance heat and non heat producing loads (IE. Fans, etc.) figured into the specs on the plate. When you look at the watts consumed by an electrical device in a server room only a small percentage of the 'watts' end up (in most cases) as heat because the majority of the electricity 'should' be used to do what ever the job is the device is designed to do.

Yes, there are calcs for IT people to figure the cooling needs for server rooms, I just don't know where they are. Bottom line is you cannot turn watts consumed into BTUs to determine your cooling needs. It's much more complicated than that. Solomon Burke Nothing Impossible Rar Download Free there. Room size, Insulation, Heat generated by equipment and the list goes on to be able to accuratly figure the BTUs needed to keep the room cool. Guys, your'e comparing apples to oranges. The 'watts' you are reading from any label on any electrical appliance is for energy (IE.

Electricity) CONSUMED by the appliance. Not how much 'heat' it produces like a '1500 watt' space heater. I do not agree with this.

A very small amount of the electricity consumed in the room may leave the room in some other form of energy. Examples include: *Shaft or mechanical power from a motor exitting the room * Light or other EM waves exitting the room through a 'window' transparent at the frequency. *Eletrical power of signals leaving the room via wiring.

Everthing else will eventually be converted to waste heat with the room, including the initial air motion of air circulated by fans (unless if physically exits). For a server, the power exitting is VERY small. Each kilowatt of power consumed will require 3412 BTU/h of additional cooling. The 1st law of thermo. Assures all the energy can be accounted for, and the 2nd law ensures if it can't otherwise be accounted for, it will eventually degrade to waste heat. (Frankly, what leaves the room will turn to waste heat in another room. You may get some 'use' out of it on the way downhill.).

Re: Conversion of Amps to BTU You don't need to consider time with watts. Amps * volts = watts Watts * 3.4 = btu This is a perfect scenario of course not taking into account ambient temp of room and perfect efficiency. Personally consider doubling your btu for cooling on this equation to be safe and allow small amount of room for growth. Basically 20amps at 120v is 1 ton of cooling aka 12000 btu in real world Actually 1 W is about 3.4 BTU per hour, so there is still a time element. Often the 'per hour' is assumed but omitted in specs. You do need more BTU/h just to cool the room, but this is a reliable estimate of the incremental cooling for incremental load in the room.