Space Heating Systems

Varying in design, efficiency and capacity, electric heating systems provide space heating, water heating (domestic, swimming pool, etc.), sterilization and other process heating needs. Often combined with space cooling systems, electric-powered heating systems offer the advantages of lower equipment and maintenance costs as well as safety and cleanliness.

Heat Pumps

With Georgia’s record-breaking frigid winters and hot, humid summers, it’s getting tougher for business – large and small – to get a handle on controlling their heating and cooling costs.  Georgia Power can help business owners keep their facilities comfortable year-round while helping them lower their power bills.  This is good for your employees, your customers and your bottom line.  Today’s high efficiency heat pumps can save you money on your heating and cooling costs.  Businesses who convert from a gas furnace to a heat pump will also enjoy year-round comfortable temperatures in their business and big savings in their budget.

Manufactured in a variety of types, a heat pump saves you energy and money by extracting heat from areas where it’s not needed and moving it to areas where it is needed.

A heat pump is a device that extracts heat from a source and transfers it at a higher temperature. While all mechanical cooling systems are technically heat pumps, in HVAC terms, “heat pump” is reserved for equipment that can heat for beneficial purposes, rather than equipment that only removes heat for cooling. Dual mode heat pumps can provide either heating or cooling, while heat-reclaim heat pumps provide heating.

An applied heat pump requires competent engineering for the specific application as opposed to the use of a manufacturer-designed unitary heat pump. The distinction between some models and applications can be rather fuzzy.

Heat pumps provide an important amplification of temperature that simple heat exchangers can not do. For example, efficient heat exchangers can preheat water or air up to 2 to 5°F of the temperature of the heat source – but never as hot or hotter than the waste heat source. If a higher temperature is required, then a heat pump or a combination of heat exchanger and heat pump must be used.

Most heat pumps used in HVAC applications today use a vapor compression cycle, similar to that used in a household refrigerator or home air conditioner and use an electric motor driven compressor, a condenser and an evaporator. Dual mode heat pumps include some form of cycle reversal where heating and cooling effects can be switched. Compressors can vary from small hermetically sealed units to large centrifugal machines. Industrial processes can be served by either this closed-vapor compression cycle, or by an open or mechanical vapor recompression or MVR cycle.

Typical waste heat sources include outdoor or exhaust air, condenser or cooling tower water, well or other ground or surface water and heat rejected from industrial processes. The selection of the source depends on several variables such as suitability, availability, cost, and temperature. Where the source availability and the useful heat needs are not coincidental, thermal storage on either the hot or cold side should be considered.



Heat pumps provide an important amplification of temperature that simple heat exchangers can not do.