Best Heat Pumps | HVAC System | InverterCool Products

InverterCool® 3Ton Heat Pump System

InverterCool® 4Ton Heat Pump System

InverterCool® 3Ton Ultra Heat Pump System

InverterCool® 2Ton Ultra Heat Pump System

InverterCool® 2-3Ton Heat Pump Condenser Unit

InverterCool® 5Ton Heat Pump System

InverterCool® 4-5Ton Heat Pump Condenser Unit

InverterCool Smart Wi-Fi Programmable Home Thermostat

FAQ

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How do I know what heat pump system to choose?

Finding the right heat pump system can be daunting but we are here to help you. We consider a number of variables including square footage, number of levels, size and location of windows, local climate, load and sizing, insulation, and ductwork. Note that heat pumps need far less capacity to heat or cool a home because they're much more energy-efficient.

What is the benefit of the new inverter technology?

Good question! Let's consider the compressor (the part that pumps the heat) to a car's engine. Consider a single stage compressor (old technology) as a car that only has two speeds: stop and go. You can't easily adjust your speed, resulting in a gas- guzzling, jerky ride. The new technology has an inverter compressor that operates at variable speeds. Think of it as driving a standard car where you can quickly and smoothly change gears to match the driving conditions. An InverterCool heat pump runs at the most efficient speed to maintain a comfortable temperature. An inverter compressor is also better at keeping relative humidity under control. Less energy is used resulting in lower energy bills and more consistent comfort. Inverter heat pumps are energy- efficient in any climate. The initial investment is higher than a single stage compressor but the higher cost is offset as inverter compressors tend to qualify for the best rebates and tax credits.

How does the Fault Detection & Diagnostics (FDD) work?

Imagine your heat pump system as a health monitor or checkup for your home. You may wear a smartwatch or fitness tracker that monitors your vital signs, such as your heart rate and pulse. If there are any irregularities, it triggers an alert so you can take prompt, preventative action-for example, slowing your pace, to prevent a potential health issue. Similarly, FDD gives you peace of mind knowing that your heat pump system continuously monitors its operations and performance. If it detects potential issues like a drop in efficiency or a minor component malfunction, it will get detected and notify our technicians. They can then assess the situation remotely, diagnose the problem, and take necessary steps to resolve the issue before it disrupts your comfort or escalates into a major, costly repair. Diagnostic data can also serve to schedule maintenance and let the technician know where to focus their attention and have the parts onhand - much like a medical checkup and tests can prevent serious health conditions.

Is a heat pump different to operate than a traditional air conditioner or heating system?

Yes! Consider it to be a difference between a sprinter and a marathon runner. A traditional air conditioner or heating system operates like a sprinter - with short, quick bursts to adjust the temperature. When you feel hot, you turn the air conditioner on to quickly cool a room. When a room gets cold, you may turn on the furnace or increase the temperature. Think of an inverter heat pump as a marathon runner. It is most efficient when it operates at a steady, consistent pace over a long period. You actually save money if you leave it on as they run almost constantly at a low level rather than having fluctuations throughout the day. In extreme weather, a heat pump can also blast out heating or cooling if needed but the minor adjustments based on the weather and conditions inside your home deliver a constant comfort level while using less energy. Another benefit of a heat pump is that it runs steadily causing less stress on its components, leading to fewer breakdowns and a longer lifespan.

What is SEER2?

The Department of Energy adopted the Seasonal Energy Efficiency Ratio 2 (SEER2) as the current rating used to measure cooling efficiency over the course of an entire season. The original SEER has been replaced by SEER2 as it provides a more realistic value for most homes. The formula to get the SEER2 ratio divides the cooling output for a typical cooling season by the total electric energy input for the same period. The higher the number, the more energy-efficient the unit. Heat pumps with higher SEER2 ratings tend to cost more, but they'll often pay for themselves over time through lower energy costs and may be eligible for better tax incentives and rebates. In warmer climates like Florida and California, the SEER2 rating is key.

What is the benefit of a higher SEER2 rating?

A high SEER2 rating - for example 17 SEER2, means it is more energy-efficient at cooling. The higher the SEER2 rating, the lower the amount of energy used, helping you save money on your energy bill. Additionally, a higher SEER2 rating can also help to lower emissions and reduce pollution from power plants. Heat pumps with higher SEER2 ratings tend to cost more, but they'll often pay for themselves over time through lower energy costs and may be eligible for better tax incentives and rebates. In warmer climates like Florida and California, the SEER2 rating is key.

Why are there regional requirements for SEER2?

While the Department of Energy regulates efficiency on a national level, there are regional ratings that depend on where you live. Currently, there are three regions: North, Southeast, and Southwest and their minimum SEER2 rating is 14.3. However, in California and Florida, it is recommended to have at least a 15 SEER2 rating. If you choose a heat pump system with a higher SEER2 rating, you will decrease the amount of energy used and, as a result, decrease your energy bill.

What is EER2?

The Energy Efficiency Ratio (EER2) measures the energy efficiency of a cooling device at a specific outdoor temperature. It is calculated by dividing the cooling output of the device (measured in British Thermal Units, or BTUs) by the power input (measured in watts). Unlike SEER2 which measures efficiency over a range of temperatures, EER2 is calculated at a single set of conditions making it useful for assessing peak load conditions. Similar to SEER2, the higher the number the more energy efficient.

What is HSPF2?

Heating Seasonal Performance Factor (HSPF2) is a metric used by the Department of Energy to evaluate air-source heat pumps when in heating mode. Nationwide, air- source heat pumps are subject to a minimum 7.5 HSPF2. As with SEER2, the higher the number, the more energy-efficient the unit. An increase in the HSPF2 will decrease your energy bill and allow for more precise humidity and temperature control. When properly installed, an air-source heat pump can deliver up to three times more heat energy to a home than the electrical energy it consumes. This is possible because a heat pump transfers heat rather than converting it from a fuel like combustion heating systems. Heat pumps with a high HSPF2 rating tend to also have a high SEER2 rating. They may cost more, but they'll often pay for themselves over time through lower energy costs and may be eligible for better tax incentives and rebates.

Why would I want a heat pump?

A heat pump is a more efficient way to control the temperature inside your home. Switching from a gas furnace to a heat pump is not only less expensive to operate but it also can reduce a home's heating-related carbon emissions by up to 40 percent. According to the US Department of Energy, a heat pump can save you nearly $1,000 a year compared with oil heat - or about $500 compared to electrical heating. In the Northern USA, many homes will have a heater and a separate air conditioner. In humid areas, like Florida, they may have only an air conditioner and maybe a dehumidifier. Each unit does what it is supposed to do. Consider the heat pump system to be the Swiss Army Knife of HVAC. You get the convenience, space savings, and improved efficiency when you cool, heat, dehumidify your home with one heat pump system. Heat pumps move heat, rather than generating heat through combustion. An inverter heat pump boasts higher efficiency than single-stage heat pumps and maintains a more consistent comfort.

Why are heat pumps appropriate for Florida?

Florida's moderate climate is perfect for heat pumps. Given Florida's long, hot, and humid summers heat pumps can efficiently cool and dehumidify your home while also reducing energy consumption, minimizing your carbon footprint, and lowering your utility bills. During the rainy hurricane season, a heat pump's filtration and dehumidifier can help to minimize mold and mildew. Florida's mild winters don't regularly require a heater but it can come in handy in rare cold snaps.

Why are heat pumps appropriate for California?

The mild, diverse climate of California is perfect for heat pumps where temperatures can vary significantly between regions and seasons. Heat pumps are the most efficient in climates that do not have extreme cold making them highly suitable for California's mild winters. Given the high cost of energy in California, the efficiency of heat pumps can result in significant savings on utility bills and aligns with California's emphasis on reducing greenhouse gas emissions and focus on renewable energy. The state of California offers various incentives and rebates for installing energy-efficient appliances - and that includes heat pumps. These incentives can significantly offset the initial purchase price of a heat pump. A heat pump's filtration can improve indoor air quality to help combat urban pollution and smoke from wildfires. By considering these factors, it's clear that California's climate, regulatory environment, and focus on energy efficiency make it a prime location for heat pump installations.

What is an air-source heat pump?

Air-source, or air-to-air heat pumps are the most common option for American homes because they easily adapt to varying climates. Air-source heat pumps are highly energy efficient and cool and heat your home with energy extracted from the air. It absorbs and transfers ambient heat rather than generating it. Heat is moved from indoors to outdoors (in cooling mode), or from outdoors to indoors (in heating mode). In cooling mode, an air-source heat pump works identically to air conditioners but can provide up to three or four times the energy they consume, resulting in lower energy bills.

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