Heat Pump Heating Systems

Heat pump heating systems generally make use of the principle of the second law of thermodynamics. This kind of heating process makes use of energy in order to transfer warm air from the house to the outside; and the much cooler air outside transferred within to benefit the people in the household especially during the summer.

The same thing goes during the winter season when the warm air gets warmer inside through the use of heat pumps. Heat pumps differ a lot with gas furnaces but somehow related to the idea of air conditioning systems.

It is a device that moves heat about rather than generate heat through the use of electricity or gas. This type of process can efficiently lower energy consumption because it can generate heat 4 times better than it can consume electricity.

Air-source heat pump heating systems are the most popular in most households. It can mobilize air from inside the house to the outside or vice versa. This type is most common to areas where winter is not so much of a problem because air-source heat pumps tend to perform abysmally during winter season.

It cannot generate sufficient heat to warm up the whole household. Although during summer months this type of heating system can efficiently act to keep moisture from invading the home. This eventually results to cooler and more refreshing atmosphere within the home, which can better the performance of other standard heating systems.

Geothermal heat pump heating systems are the most highly efficient of its kind. It can utilize energy coming from the ground or from water storage areas. Because of the constant conditions provided by these sources geothermal heat pump are known to provide utmost comfort at home.

Installation processes require a wide ground coverage and the right kind of subsoil and landscape for better heat generation and energy utilization. People living under extreme climatic changes can benefit from the comfort of geothermal heat pumps without spending much in their energy consumption.

Although it can be very costly as compared to other heat sources for the home, the advantages it provides can live up to its price.

Originally posted 2011-04-09 11:06:28.

Heat Pump Energy Efficiency Review

Heat pump energy efficiency spells not only comfort to most homeowners but also cost-effectiveness and low demands for maintenance.

Heat pumps make use of energy in order to transfer heat from one place to another.

Unlike those of gas furnaces, heat pumps move air to heat up a room or cool down the atmosphere during summer seasons. Heat pump energy is known to provide an efficient heat source because it can generate heat inside the home four times better than it consumes energy to make it work.

It provides high level of performance without sacrificing household bills and monthly expenses for repair and maintenance that standard heating systems call for every now and then.

Air-source heat pump energy efficiency is most appropriate for places where the weather tends to be warm. This type of heating system transfers heat between the house and that of its surrounding environment.

It also acts as dehumidifier preventing moisture from making the atmosphere inside a room uncomfortable and warm. Air-source heat pumps cannot perform very much during winter seasons because it cannot generate heat better than other gas furnaces.

When shopping for heat pumps be sure to consider the size in order to avoid having bigger heating machines move the air inside continuously more often than necessary. This may just lead the equipment to wear itself out sooner than you expect.

Consult your contractors in order to estimate your home’s heating load and annual cost of having a certain kind of heat pump model. The heating and cooling performance of heat pumps are measured through its own coefficient of efficiency.

Cooling factors are measured through seasonal efficiency rating or SEER. The heating ability of heat pumps is measured through heating seasonal performance factors or HSPF.

Higher HSPF ratings are best for winter months and very cool climates; while high SEER measurements are appropriate for summer seasons and for places where climate tend to be too hot.

Heat pump energy efficiency can be calculated through this ratio in order to properly make an estimation of how much it would benefit the household in terms of its cost and effectiveness in generating heat.

Originally posted 2009-10-11 08:32:30.