yes, it has an output of 20 amps @ 120v so it will power any standard refrigerator.
I believe a 900 Watt Generator will only handle 7.5 amps at 120 Volts.
yes
Watts = amps x volts. 1000/120 = 8.3. Assuming the oil burner motor is 120V then the generator has the ability to produce 8.3 amps. Find the amperage on the burner pump motor, if it is in this range it will work. The closer the pump amperage is to the generator output the more effect it will have on slowing the generator down on the start. Motors draw up to 300% on start up, this is what makes the generator lag when a motor is connected as a load.
A 1000 watt generator cannot run a 1500 watt ceramic heater without having problems.
A volt-amp (va) is the same as a watt (w). A 2.8 kva generator can provide 2800 w of power which is more than sufficient for a 1000 w saw, as long as the safety circuit breaker on the generator can handle the load. Short answer, yes.
When purchased online, the price of an ozone generator ranges between about $25 to about $1000. The price depends on what type of ozone generator you are looking for.
=.08433*1000= 84.33 litres
It could run a small one. You need to check the rating on the refrigerator. There is a surge at stating so take that into account.Yes it will. The 2000 watt peak is what is used to compensate for motor inrush. That allows 11.5 amps for a continuous load. Thank You for your answer.
There is a 1000 Watts Electric Generator on www.amazon.com that you can buy for $109.00. It has an affordable price, and is currently being discounted by 10% from $240.56. It has a gas tank, voltage of 120 Vlt, 1.5 HP and also has a Frequency of 60Hz.
yes
100-1000 depending on specifics
EQUIPMENT OUTPUT DERATION: Particular example is the Generator Set installed at 1000 meters above sea level the power output is derated due to pressure.
A Caterpillar 150 kilowatts SR for generator ways approximately 800 pounds without fluids. The generator will weigh over 1000 pounds with fluids.
That depends on the power requirement of the sump pump. A 1000 watt generator (if this is running watts) will produce 1000 watts continuous. Through some simple math, this is equivalent to 8.33 amps at 120 volts. Current (in Amps)=Power (in Watts)divided by Voltage (in Volts). On your sump pump, there is something called a nameplate which lists model number, serial number, manufacturer, and power requirements. The power can either be listed in watts directly, or in amps (at 120v). If it lists watts directly, this number is either higher or lower than your 1000w generator. If it lists amps, your generator will supply 8.33 amps continuous, as figured above. Likewise, you can find out if your generator can power any given load by using this method. Just divide the listed wattage by 120 to get amps. Also, motors do pull higher current when they start, so it is usually recommended to size the generator larger than you would otherwise when you are running a motor, such as your pump. If the sump pump is right up there at 8 amps, it would be pushing the limit to expect it to run the pump. Some smaller generators too are so-called "inverter" units, and many of these are not recommended for motor starting duty. Check the generator's manual to be sure.