Types of HVAC Systems
Types of HVAC Systems
If you've done an energy efficiency assessment of your home, maybe had some additional insulation installed, and you’re hiring a heating or cooling systems professional then now’s the time to decide on the right HVAC system for your home.
Newer systems today provide many more options, such as variable fan speeds and multiple stages of heating and cooling.
Single or Multi-Stage?
Single-stage heating and cooling is popular in colder winter climates and hot and humid areas, respectfully, because the systems are set to provide comfort for the coldest or warmest days of the year. But that also means that a great majority of the time, these heating systems or air conditioners are operating at full capacity when they don’t need to be. That's where a multi-stage system comes in handy and can save you energy and money.
You can get a single-stage system with variable fan speeds to create a variable air flow, says Donald Prather technical services manager for the Air Conditioning Contractors of America(ACCA). Though that variation is limited, he stresses. You may not experience much of a difference, because the heating or cooling unit is still working at its maximum output.
Zoned HVAC systems can heat or cool individual areas of your home by controlling zone valves or zone dampers inside the vents or ductwork, which selectively block the flow of air. Zoned systems can save you energy and money by only heating or cooling certain areas when you need it.
Humidifiers and dehumidfiers can be added as options to heating and cooling systems, and if you live in a very dry or humid climate these upgrades should definitely be on your list. About 50 percent relative humidity is considered optimal for humans.
With these systems you can automatically control the humidity levels in a home as you heat and cool, though this is not available through forced-water heating systems that use boilers. With humidity/dehumidification systems built into your furnace or air conditioning, you cannot control the humidity levels when the system is not on. If desired, you can add separate humidity/dehumification systems that do this.
According to the U.S. Department of Energy, modern conventional heating systems can achieve efficiencies as high as 97 percent, converting nearly all the fuel to useful heat for your home.
Heating units can be categorized into furnaces that provide heated air through ductwork, which is a popular type of heating system in the United States such as boilers that heat water for steam radiators or forced-water systems with baseboard radiators, electric heat and heat pumps. Furnaces generally use natural gas or propane for fuel, while boilers can use gas or oil.
All-electric furnaces have AFUE ratings of 95 percent to 100 percent, but they are not economical is many parts of the country. You can also consider electric heat pumps to heat or cool parts or all of your home. Some heat pumps can be added onto furnaces as well, to help use less gas or propane.
, or hydronic heating systems, often use piping under a floor. Flexible tubes are filled with water or a glycol solution to heat a concrete or other floor. These can be quite efficient and require either a boiler or heat pump. And they can be retrofitted, if carefully installed beneath wooden floor sheathing. Though radiant systems are much more effective if built into a concrete floor, which will retain the heat and release it slowly.
Air conditioning systems today come in several different sizes and types, and what you decide to add or upgrade in your home depends on the systems you already have, as well as the climate.
If you live in the south, you’ll probably want a central or whole-house air conditioning system. Northern habitants may opt for portable window units that can be placed inside a window for a few months of the year. And many in between can opt for systems like ductless mini-splits that are part inside and part outside of the home.
Today's best air conditioners use 30 percent to 50 percent less energy to produce the same amount of cooling as air conditioners made in the mid-1970s. Even if your air conditioner is only 10 years old, you may save 20 percent to 40 percent of your cooling energy costs by replacing it with a newer, more efficient model.
The most generally known efficiency rating is Seasonal Energy Efficiency Rating (SEER). SEER 13 is the minimum efficiency you should consider, but higher efficiencies are likely to be cost effective. Some central air systems have SEERs of 16. In hot, dry climates you should look at the Energy Efficiency Rating (EER), which denotes how well the system will work at peak conditions. Also look for Energy Star-rated systems for the best energy efficiency.
Air conditioners have three important parts that include a compressor, a condenser, and an evaporator. The compressor and condenser are normally located on the outside part of the air conditioner while the evaporator is located on the inside. Most central air conditioning systems in homes are split systems.
Many today use for ductless mini-split systems, which can be installed by do-it-yourselfers, though it is a moderately difficult project, as interior and exterior units must be installed and both refrigerant and condensation lines must be run between the two elements. These systems can run $1,500 to $2,000 per ton, according to the U.S. Department of Energy.
Some in hot but non-humid climates like the southwest use evaporative coolers, also called swamp coolers, that cool outdoor air by passing it over water-saturated pads, causing the water to evaporate into it. The cooler air is then directed into the home, and pushes warmer air out through open windows.
Proper sizing is very important for efficient air conditioning. A bigger unit is not necessarily better because a unit that is too large will not cool an area uniformly. A small unit running for an extended period operates more efficiently and is more effective at dehumidifying than a large unit that cycles on and off too frequently.
Based on size alone, an air conditioner generally needs 20 British thermal units (Btu) for each square foot of living space. Other important factors to consider when selecting an air conditioner are room height, local climate, shading, and window size. Also look for a filter that slides out easily for regular cleaning, logically arranged controls, a digital readout for the thermostat setting, a built-in timer, and an Energy Star-rating for efficiency. Replacing an older unit with an EER rating of 5 with one with an EER of 10 can cut your energy costs in half, according to the DOE.
Heating/Cooling System Sizing 02:29
Maybe you don't need to replace that heating or cooling system, and can get by with a key fix-it or two. There are plenty of possibilities that are inexpensive and can save you some money.
In gas- and oil-fired boilers or furnaces, adding a vent damper closes off air loss up a chimney when the boiler or furnace is not running. Intermittent ignition devices turn off pilot lights in older systems when not needed. Reducing the size of the gas burner orifice or nozzle in oil-fired systems, or the baffles in a gas-fired system, can effectively downsize or derate an oversized system.
When the HVAC system in Jeff Wilson's 70-year-old Cape Cod home broke five years ago, well before his Deep Energy Retrofit (DER) efforts, he used the opportunity to upgrade the old unit to a system that is 97 percent efficient. With other efficiency measures, including insulation and new windows, his energy bills will eventually be two-thirds less.
Jeff shopped around before settling on this Bryant air conditioner with a Seasonal Energy Efficiency Rating (SEER) of 16. (The higher the number, the more efficient the system.) This unit works in concert with the 97-percent-efficient furnace with the variable-speed blower that allows Jeff to set the humidity level on his thermostat. This feature reduces air conditioning usage.
When choosing a new air conditioner or furnace, Jeff offers this tip: Buy the best system you can afford now. That way, as technology evolves, your system will remain relevant and continue to provide energy savings well into the future.
Here, Jeff outlines the features and benefits of the Bryant HVAC system he chose for his home. Those include: an efficient, maintenance-free motor; variable-speed control to adjust air flow based on the season and manage humidity; an easy-to-replace filter; a pre-filter that captures airborne particles; and greater heat return to the home in winter for efficient air filtering.
Jeff's furnace capacity is perfectly sized for his home, which is important to maximize the efficiency of the system. "If the system kicks on and cools down the house in five minutes, that sounds like a good thing — but the compressor will burn out years before it is supposed to," he points out. Bigger is not better. Size the HVAC to the size of your home, he advises.
Excess radiators can be eliminated as well. Modulating aquastats for hot water boilers adjust the hot water temperature to the outside temps and can save 10 percent in fuel costs. And a time-delay relay for hot-water boilers causes hot water to circulate through the system without firing the boiler. An oil-fired system can also benefit from a barometric flue damper that prevents too much heat from going up a chimney. The Department of Energy offers more details on and retrofit options.
In these cases, adding a dehumidifying heat pipe can help. The process by which they work is a bit complicated, but they can be retrofitted to most air conditioning systems and heat pumps. They're typically located on either side of the air conditioner's evaporator coil.
If you have an old, inefficient burner on an oil boiler, though, you may want to replace the whole burner. A flame retention burner will block airflow up the chimney when the unit isn't running, saving up to 20 percent on fuel costs at a cost of about $500, says the DOE.
For air conditioning systems, if you have an older central air conditioner, you might choose to replace the outdoor compressor with a modern, high-efficiency unit. If you do so, consult a local heating and cooling contractor to assure that the new compressor is properly matched to the indoor unit.