The system simplifies air conditioning technology and delivers more than 100% energy savings vs. a conventional system. Understand your savings with the BeCool™ unit We believe that innovation begins with the customer’s needs and is followed by a solution that exceeds their expectations. Our state-of-the-art BeCool™ air conditioner delivers the best in HVAC performance and goes a step further to produce electricity that the customer uses to power their building. The value of the electricity produced is higher than the cost of natural gas consumed, turning energy savings into energy earnings. The BeCool™ unit is a cogeneration system that produces electricity, heating and air conditioning (A/C). Take a tour of our BeCool™ prototype Learn how the BeCool™ system works Applying the Air Conditioner to Your Building We believe that innovation begins with an approach to the customer's needs and is followed by a solution that exceeds their expectations.

Be Power Tech will enter the commercial building market in 2019. reset button on home ac unitField trials are expected to begin in 2018. window ac unit cleanWe are now accepting applications for field trial partners.through wall air conditioner heater unit For more information, submit an inquiry. Protects and Restores the Environment Each BeCool™ unit installed has the same environmental impact as buying 5 electric cars. Assumptions: San Diego, CA typical meteorological year (TMY3), 10 ton cooling load, 5 kW average building electrical load (non-A/C), US grid average displaced emission rates Benefits of Air Conditioner Reduces building energy cost by more than 67% Produces 5 kW of high quality electricity to power your building or sell back to the grid

Cooling or heating mode Peak electricity demand reduced by more than 70% Easy to install packaged rooftop system (direct replacement for standard 10 ton unit) No harmful chemicals (uses NO refrigerant) Protects and restores the environment by reducing and eliminating harmful emissions Water neutral (no hook up or condensate drain lines required) SEER: 3 Free Tools That Show You How Much You’ll Save with a New AC So you’ve determined that you need a new air conditioner, and you’re well aware that SEER is a big deal when it comes to energy efficiency. But you have no idea how much money you’ll save by picking one SEER rated air conditioner versus another.In other words, you have no idea how much a 14 SEER saves versus a 13 SEER, or an 18 SEER versus a 16 SEER--and so forth.How much you’ll save depends on several factors. But there are a few tools you can use to get a general sense--making shopping for a new air conditioner much easier.

Here are 3 free tools that will empower you to estimate the savings you’ll get when picking one SEER rated air conditioner over another. 1) Annual Energy Savings Calculator from NATE Why this tool rocks: Simple and easy-to-useLets you see how much money you’ll save by picking one SEER over another when upgrading from your old system.Allows you to input the tonnage (cooling ability) of the unitWhat it‘s lacking: Can’t change the electric rate per kilowatt (measurement of the cost of electricity)No options for calculating based on your locationCan’t input the cost of the air conditioner to determine a break-even analysisBeginning SEER only goes as high as 12 SEER--limiting the comparisons you can make2) Energy Savings Calculator from Lennox Visually engagingUnlike the NATE tool, you can compare higher rated SEER air conditioners to each otherGives you 5, 10 and 15-year savings (this is important because air conditioners typically last about 15 years according to Consumer ReportsLets you input the electric rate per kilowatt (measurement of the cost of electricity)Lets you calculate based on locationWhat it‘s lacking:

Only lets you compare with 10 SEER rated air conditioners or higher (older air conditioners may be 8 SEER)Can’t input tonnageCan’t input the cost of the air conditioner to determine a break-even analysis3) Energy Usage and Payback Calculator (Excel File) From Energy Star More customization than other toolsGives you ability to input cost of air conditioner in order to see complete life cycle savingsLets you add number of air conditioner unitsLets you add electric rate per kilowattGives you option to calculate based on locationLets you see side by side comparisons of conventional vs Energy Star rated air conditionersWhat it‘s lacking: Not visually engaging and it’s not easy-to-use (especially if you’re not familiar with Excel)Lacks guidance for beginners. This tool can be overwhelming and not helpful if you don’t have all the information needed to make an accurate calculationIn summary Hopefully these tools will empower you to see the savings each SEER rated air conditioner will provide to make your air conditioner shopping easier.

Just remember than each tool is limited in how accurate it can be because there are many factors that determine your electric bill.To get a complete view of how much money you can save by upgrading from one SEER to another, contact Cool Today online for help.Cool Today provides award-winning air conditioning service to Sarasota, Bradenton, Port Charlotte, Tampa, Venice, North Port, and West Florida. Like what you've read? Get monthly specials and home comfort tipsInstalling a heat pump can make a huge difference in your electricity bill by decreasing the cost of heating and cooling your home. A heat pump will replace both the furnace and air conditioner/central air unit.The average cost to install a heat pump ranges from $3,958 and $6,713 depending on the size of your home and type of heat pump. Since a geothermal heat pump requires underground installation, its installation costs will be more expensive than the costs for the air-source type. Though the cost of the heat pump and labor fees may be a significant investment, it can drastically reduce your energy consumption.

Consider the following factors before installing a heat pump:The difficulty associated with the excavation of the ground will affect the installation costs. Make sure to consult a few installation professionals and get a number of bids, as this installation can vary significantly in price. For example, drilling through a concrete slab or driveway to install the heat pump will be more expensive than no excavation. Here are the cost factors to take into consideration before installing an air-source or geothermal heat pump:The biggest single factor in determining the price of your heat pump is the size of your house. Larger houses will require higher-capacity pumps to heat and cool them properly.  The higher your heat pump’s capacity is, the more you will pay for it. Do not try to cut costs by installing a pump that is too small for your needs. What you might gain in savings will be lost quickly in efficiency and higher energy costs. These are some tips to help you choose a heat pump that is ideal for your home:Every heat pump manufacturer usually offers low-, mid-, and high-quality units.

The HSPF rating (Heating Seasonal Performance Factor), energy-efficiency rating (SEER), and sound rating all factor into the cost of the heat pump. For example, a pump with a higher energy-efficiency and HSPF score is typically priced higher.Most customers will spend between $700 and $2,800 for a mid-quality heat pump, not including labor costs. Depending on the brand, model and installation factors like drilling or excavation, this can take the cost up to $9,000.Below is an overview of the price ranges for popular heat pump brands:Many heat pump manufacturers do not publish their unit prices, due to the fact that there are a number of considerations that may affect the overall cost. However, here is an average estimate for other major heat pump brands based on their 3-ton models, which ranges from $5,000 to $8,200 for labor and standard materials. Keep in mind that there are other circumstances, such as more involved pipe work, that can cause these estimates to increase:There are two main types of heat pumps: geothermal heat pumps and air-source heat pumps.

A geothermal heat pump draws the heat from the ground, while the air-source type pulls the heat from the air outside.There are also other types of heat pumps, such as hybrid pumps, which draw their energy from a gas boiler, and absorption pumps, which operate on water heated by solar panels or geothermal energy. However, these are used less commonly and often have higher unit and installation costs.Heat pumps rely on evaporation and condensation processes to heat and cool the home. The unit transfers heat through the system via a refrigerant substance. The compressor within the pump circulates the refrigerant through two heat exchange coils. The first coil evaporates the refrigerant and absorbs heat from the air. The refrigerant then passes to the second coil, at which point it condenses and the unit releases the absorbed heat.Unlike a heater or air conditioner, which can only push cold or hot air out of the system, a heat pump is able to carry out both functions using two distinct processes:The external heat pump unit absorbs energy from the outdoor air through the heat exchangers.

In this instance, the refrigerant transfers heat to the system and is pushed through the pipes. Upon reaching the interior unit, the heat exchanger transfers the energy to the cooler air. The cool air is then warmed up as it circulates past the exchanger.The interior unit absorbs heat energy from the air via the heat exchanger, then uses the refrigerant to transfer the heat to cool down the room. The refrigerant passes back through the pipes into the exterior unit, where the energy is pushed out of the house and into the outside air by the exchanger.There is a wide range of cost- and energy-saving advantages associated with heat pumps. Here are just a few of the benefits that homeowners can expect to receive after installing a geothermal or air-source heat pump:Installing an energy-efficient heating and cooling system run by a heat pump may qualify you for several federal tax credits now being offered. There is also a tax credit for using a renewable system like geothermal heat. Taking advantage of these credits will dramatically decrease heat pump installation costs.