- Heat pumps use the refrigeration process to extract heat from outdoor air and blow it indoors.
- Heat pump blowers are designed to move a lot of air.
- When the heat pump first starts, it takes time to extract the heat from outdoor air.
- Meanwhile the blower is blasting away and delivering not so hot air and you experience a draft that seems to last forever.
- The colder it gets outdoors the less heat your heat pump can get from the outdoor air. That blower is still churning away at full speed and the air being delivered is getting colder.
- The next thing you do is turn on the emergency or secondary heat to get what comfort you can.
Blower speeds are always under precise temperature control. If you don't need a lot of air you don't get it.
Because the FanHandler controls your blower's speed and ties it directly to the temperature of the air being delivered to your home, the heat pump's efficiency is improved. This means energy saving. It also means that you'll enjoy the best possible heating comfort throughout your home in any type of weather.
There isn't a heatpump that was wever installed that
doesn't NEED a FanHandler modulating control.
IMMEDIATE HEAT IS WHY
HEAT PUMP HEATING COMFORT
UNMATCHED COOLING PERFORMANCE
When the heat pump starts in the cooling mode, the blower is moving air at a slow speed. This establishes a very cold coil. Because the coil is so cold, the sensible/latent ratio goes to latent. A couple of seconds later, the delivered air temperature drops. The instant temperature response of the FanHandler causes the blower speed to increase. However, it won’t increase past the point where its latent capability is compromised. Refrigerant is always above saturation so it can’t slug. In high humidity conditions, when the FanHandler is first installed, the first impression you’ll have is that the fan isn’t going fast enough. Put the gauges on and you’ll notice that the machine is working its lungs out. That’s because the machine is concentrating on the latent load. The discharge air will seem high, but water is flowing out of the drain. The next day the indoor relative humidity will be maybe 10% lower. The delivered air temperature will be cooler and the blower will be running faster. The reason for this is that there isn’t as much latent heat to work on, so the machine stays loaded by working on sensible heat. You can read a lot more on this subject in the paper “ Humidity Control & A/C”
Now for a very important point: You can run the blower 100% of the time. Because the blower slows down as the coil gets warmer, it doesn’t blow the water off the coil. The water runs down the coil just as it should and ends up down the drain and not down the duct work. Just as important is the FanHandler’s action when the A/C compressor turns off. When the compressor turns off, the coil starts to warm within a couple of seconds. Again, because the FanHandler’s reaction is instant, the blower starts to slow down. However, it only reduces the speed to the point that it matches the cooling effect caused pressure equalizing between the high pressure condenser and the low pressure evaporator. On some cap tube installations it might take ten minutes to fully equalize. Keeping the fan running at a slower speed during the pressure equalizing portion of the refrigeration cycle results additional cooling that would be lost if the blower was off. And the coil still collects moisture.
Heat right away - Average delivered air temperature averages about 15° higher during heating - Run the fan 100% of the time in heating and cooling - Never slug the system - Maximum humidity removal - Condensate down the drain, not down the duct - Needed on EVERY heat pump EVER installed - Make happy homeowners, not excuses!