5 Ton Rheem 14 SEER R-410A Air Conditioner Packaged Unit -- Please Select --No Heat Strip 5 Kilowatt +$115.008 Kilowatt +$153.0010 Kilowatt +$155.0015 Kilowatt +$254.0020 Kilowatt +$273.00 3.5 Ton Rheem 16 SEER R410A Air Conditioner Split System Copeland® Two-Stage Ultratech scroll compressor Heavy-Gauge, galvanized steel enclosure cabinet High-Efficiency two-speed ECM condensor fan motor Home > Residential HVAC > Armstrong Air Introduces 14 SEER, 5-ton Air Conditioner Armstrong Air Introduces 14 SEER, 5-ton Air Conditioner Armstrong Air has launched a new single-stage, 5-ton air conditioner that qualifies for a range of utility and state-level energy incentives. Capable of efficiency levels ranging from 14 to 16 SEER, the new model 4SCU14LE159 helps Armstrong Air dealers leverage energy rebates to save homeowners money on the purchase of a new system, and on their monthly electricity bills. “Armstrong Air is dedicated to building our dealers’ business through a portfolio of products targeted at key market opportunities.

The launch of a rebate-eligible, 5-ton unit is a natural extension of that commitment,” said Trent Davis, senior product manager, cooling. “We’re enabling dealers to take advantage of energy rebates and incentives, making high-quality equipment affordable to homeowners and helping to save them money with higher-SEER performance.” Armstrong Air distributors gain a versatile product that can achieve a range of efficiency levels, helping them attract new dealers.  Dealers benefit by offering a higher margin product at a cost competitive price and can offer full matched systems that increase revenue and profit. Plus, dealers get the leading-edge craftsmanship and quality solutions they have come to count on from Armstrong Air products. “We want to continually strengthen our dealers’ competitive advantage in the market,” added Becca Kingery, residential brand manager.  “Along with providing strategic product launches, we give our dealers a wide array of support from robust marketing programs to strong technical training, all designed to make our products easier to sell and install.”

Every Armstrong Air air conditioner features Maximum Heat Transfer (MHT) Technology—Armstrong Air’s proprietary heat transfer system—to deliver maximum heat transfer and performance. The 14LE air conditioner family features both high- and low-pressure switches to help protect against adverse system pressures.  Additional features include a single-stage scroll compressor, an upgraded contactor designed to reduce nuisance failures, and a heavy-duty sound blanket for quieter operation. Armstrong Air air-conditioning units are backed by a 10-year limited warranty on the compressor and a 10-year limited warranty on all covered parts in residential applications.Written For the projects of our customers we use the following data for the design of the electrical installation:1. - 3.5 ton AC, environmentally friendly R410A, split system, with both condenser and air handler, central air conditioner system.2. - It is equal to 42000 BTU of capacity.3. - Power supply of 208-230/1/60.4.- Rated current of 22.1 A.5.

- 16 SEER Efficiency.At acquisition and installation time we verify the data from the manufacturer of the AC and we make the changes if any.Written This will depend on the weather! If it is especially hot outside the AC will have to work harder to cool your space. It is impossible to give you an accurate answer to the question, but sometimes estimates can be made based off of typical load profiles in your area.ac unit 15000 btuBenjamin LyddaneWritten This question is under-specified. daikin ac units for saleThe energy use depends on the time during which the compressor and fan are working, and on the efficiency of the device and on the temperature difference between inside and outside.2 ton window ac in dubaiThe ton unit is a hold-over from the days when blocks of ice were delivered: in your case 3.5 tons a day.

It is easy, but misleading, to work out the thermal energy stored in a block of ice when heated to room temperature ~ it is about 3.5 kW per ton of ice melted in a day.(12000BTU/hr in American units) But it is rather strange to realize that air-conditioning is one of those rare devices that give out more thermal energy than the electrical energy they use. This ratio called COP can amount to an efficiency of 300% to 1000% though air conditioners are not usually rated like this, but in a peculiar mixed unit ratio called EER, Energy Efficiency Rating which mixes BTU (output) divided by watt.hours (input) as the efficiency measure.If units are converted to a uniform system, EER is like COP (Coefficient of performance) using a scaling factor in this way:(EER) BTU/hr /watts = (COP) Watts out / watts input all times 0.293Until recently, efficiency as EER as low as 6 was permitted. Now AirCon units must be at least EER 6 and better is 12.Let’s suppose your 3.5 ton unit is brand new and moderately high efficiency.

That three and a half tons of ice represents 3.5 X 3.5kW thermal power divided by the efficiency multiplier now easily available (COP = 3.5) and we end up with 3.5kW as an estimate for the electrical power, consumed for as many hours as the outside temperature is too hot. And that gets us to Seasonal SEER - but I won’t bug you with that.Updated I think it is 3.51KW per RT [refrigeration ton], although that does not account for inefficiencies.1 RT = 12000 BTU/hour.Refrigeration tons to kilowatts (kW) conversion calculatorwleWritten For our reliability survey, we focused on two types of air conditioning systems: conventional, which are more common in areas with wide temperature swings, and heat-pump, which are typically used in areas with more moderate cooling and heating needs. Heat pump systems, used for both cooling and heating, move warm air from your cool house outside when it’s hot and do the opposite during the heating season. Heat pumps are used for cooling about seven months a year while conventional systems are typically used five months a year.

Central Air Conditioning Types The most common type of central air conditioning is the split system, which features a condenser outside the home, and a fan-and-coil system inside, connected by pipes carrying refrigerant. However, not every home can accommodate the ductwork needed to install central air, and a split ductless system is an option. Central air-conditioning systems use ducts to distribute cooled air throughout the house. In a "split system," the most common design, refrigerant circulates between an indoor coil and a matching outdoor condenser with compressor. The refrigerant cools the air, dehumidifying it in the process; a blower circulates air through ducts throughout the house. A variation is the "heat pump," a type of system that functions as heater and cooler. Heat Pump Air Conditioners Heat pump air conditioners are common in regions with moderate heating and cooling needs. During the cooling season, heat pumps move warm air from your cool house outside.

During the heating season, they do they opposite. Systems with heat pumps are typically in use for cooling for a median of seven months a year. Split ductless systems have an outside condenser and one to four indoor blower units mounted high on the wall. Tubing connects these parts and circulates refrigerant. The tubing, along with an electric and drain line, is run through about a 3-inch hole hidden behind each indoor unit. Each indoor unit cools the room in which it's installed and has its own remote control. Split ductless systems need no ductwork, making them easier to add to homes without existing ducts. They can be more expensive than window air conditioners, and professional installation is recommended. How an Air Conditioner Works To provide cooling throughout the home, air conditioners transfer heat from a home's interior to the outside. Keep Your Ducts in a Row If you are installing an A/C system from scratch, your contractor should calculate the size of the cooling equipment you need by using such recognized methods as the Air Conditioning Contractors of America (ACCA) Manual J.

If you already have ductwork for your heating, adding a central system can cost less. Keep in mind that ducts used for heating might not be the right size or in the right location for optimal cooling. Your contractor should ensure duct sections are properly sized and that there are enough supply registers to deliver sufficient air to the right spots. Undersized ductwork can make for inefficient and noisy operation. Maintenance tips for keeping your AC running smoothly:Be sure hedges and plants are at least 2 feet away from the outside unit. Clean grills and filters monthly. Clear debris and dirt from condenser coils and check for blockages in the drainpipe. Seal and insulate ducts. Cool or warm air can escape through leaks or when ducts aren't insulated properly, wasting up to 40 percent of the energy used to run your system. Sealing your ducts will keep you cooler in the summer and warmer in the winter. That’s why it’s called duct tape, not duck tape.Once a year have a licensed professional change all filters, clean and flush the coils, drain the pan and drainage system, and vacuum the blower compartments.

The contractor should also check that the system is properly charged with refrigerant, that there are no leaks, and that all mechanical components are working properly. Important Factors In Choosing Central AC A synonym for the air conditioner's cooling capacity, size is measured in British thermal units per hour (Btu/hr.) or in "tons." One ton of cooling equals 12,000 Btu/hr. For sizing guidance, use the calculator on the Energy Star website. This describes how much cooling the unit delivers for each watt of electricity. Efficiency is expressed as the Seasonal Energy Efficiency Rating, or SEER. The minimum SEER for a split system central air conditioner allowed today is 13, so look for units with SEER ratings of 13 or greater. The higher the SEER, the more you can lower your energy costs. A service plan that combines regular inspections with discounts on repairs and a labor warranty is worth negotiating into the overall price. Prices for such a service vary widely.

Proper use of a programmable thermostat can reduce your cooling costs by up to 20 percent. And using a box or ceiling fan, which cost little to run, can make you feel 3 to 4 degrees F cooler. Upgrading an existing system If you're upgrading your central air, don't assume you should buy the same-sized system. Any changes you've made to improve your home's energy efficiency, such as upgrading your windows or adding insulation, can reduce your cooling needs. On the other hand, if you've added rooms, you might need more cooling. Have your contractor do a load calculation based on a recognized method, such as Manual J from the ACCA. The contractor's evaluation should include whether your ducts need to be resized, sealed and insulated, or replaced. Remember that an indoor evaporator coil and outdoor condenser must be a matched set from the same brand, or else the performance, efficiency, and capacity may not meet expectations. New systems are 20 to 40 percent more efficient than minimum-efficiency models made even 10 years ago.

Costs will vary and can depend on whether you need ductwork installed and the particular size and configuration of your home. Installation: Find the Right Contractor Whether you're replacing an older air conditioner or installing one for the first time, finding a trustworthy contractor to install and service an air-conditioning system matters the most. Here's what to do.Seek referrals from neighbors, family, or business associates. It's wise to get price quotes from at least three contractors.Contractors who bid on your installation should show you verification of bonding and insurance, plus any required contractor's licenses. Check with your local Better Business Bureau and consumer affairs office for complaint records. It's a plus if technicians are certified by a trade organization, such as North American Technician Excellence or HVAC Excellence, to service residential heating and cooling equipment. Those and other similar programs assess the technician's knowledge of specific types of equipment and their proper service methods.