Frequently Asked Questions

  • Are all air filters the same? How often should I replace them?

    No, all air filters are not the same. Some systems call for more or less restriction of airflow. This all depends on how large your air return is designed. Some equipment can handle higher airflow restrictions than others. 1″ filter should be changed monthly while 5″ filter should be changed every 6 months. In homes with less foot traffic, filters will last longer.

  • Do you offer service agreements? How do they work?

    Yes, NexWave Air Peace of Mind agreements are a great way to keep your equipment maintained. We will call to remind you when it is time to schedule a check up. Discounts of services are offered to our Peace of Mind agreement members.

  • How does pricing work?

    ​​At NexWave Air, we use industry standard flat-rate pricing so that you know what to expect before work begins.

  • HVAC Acronym (Heating,Ventilation and Air conditioning)

    HVAC stands for Heating, Ventilation, and Air Conditioning. It is a technology that is used to control the temperature, humidity, and air quality of indoor environments. The HVAC system consists of several components that work together to create a comfortable and healthy living or working space.

    The heating aspect of the system is used to keep the building warm during cold weather. This is typically done through the use of a furnace, which burns fuel such as natural gas or oil to create heat. The heat is then distributed throughout the building using a system of ducts.

    The ventilation aspect of the system is used to bring fresh air into the building and remove stale air. This is important for maintaining good indoor air quality and for removing pollutants and allergens from the air. This is typically done through the use of an air exchange system, which brings in fresh outdoor air and removes stale indoor air.

    The air conditioning aspect of the system is used to keep the building cool during hot weather. This is typically done through the use of an air conditioner, which removes heat from the indoor air and releases it outside. The cooled air is then distributed throughout the building using the same duct system used for heating.

    The HVAC system also includes a thermostat, which is used to control the temperature of the building and turn the HVAC system on and off as needed. Modern thermostats can be programmable, allowing the user to set the desired temperature at different times of the day, and some even have the ability to be controlled remotely through a smartphone or tablet.

    In summary, HVAC technology is a combination of heating, ventilation and air conditioning systems that are designed to provide a comfortable and healthy indoor environment. It works by controlling temperature, humidity and air quality, it uses different components like furnace, air conditioner, ductwork and thermostat to achieve this goal. It also helps in reducing energy costs and environmental impact.

  • Should my HVAC contractor do a load calculation?

    A  load calculation is a crucial step in designing and installing an HVAC system. manual J Load calculation worksheet  is   a process used to determine the heating and cooling needs of a building, and it helps to ensure that the system is properly sized and can effectively heat and cool the space. The calculation takes into account factors such as the size of the building, the number of windows, the insulation levels, the local climate, and the number of people that will be occupying the space.

    The load calculation is typically done by a professional HVAC contractor or engineer, who will use specialized software or manual methods to determine the heat gain and heat loss of the building. The heat gain is the amount of heat that enters the building from the sun, people, and appliances, while the heat loss is the amount of heat that escapes the building through the walls, windows, and roof. The load calculation will also take into account the air infiltration rate, which is the amount of outside air that enters the building through cracks and openings.

    The A C load calculation process starts by measuring the square footage of the building, including the number of rooms, windows, and doors. The contractor will also take into account the type of insulation and the R-value, which is a measure of the insulation’s effectiveness. The local climate, including temperature, humidity, and wind speed, is also considered in the calculation. The number of people occupying the space and the type of activities that take place in the building, such as cooking or running computers, are also taken into account, as they can significantly affect the heat gain and heat loss.

    Once all the data is gathered, the contractor will use specialized software or manual methods to determine the heat gain and heat loss of the building. The software will take into account all the data, including the insulation levels, local climate, and occupancy, to determine the amount of heat that enters and exits the building. The load calculation software will also take into account the air infiltration rate, which is the amount of outside air that enters the building through cracks and openings. The software will then use this information to determine the size and capacity of the HVAC system that is needed to properly heat and cool the space.

    The load calculation is an important step in the design and installation of an HVAC system, as it helps to ensure that the system is properly sized and can effectively heat and cool the space. An improperly sized system can lead to poor performance, higher energy costs, and even system failure. An oversized system may short cycle, which means it will turn on and off frequently, leading to increased wear and tear, and higher energy costs. An undersized system will struggle to keep up with the demand, leading to poor performance and increased energy costs.

    In addition to determining the size and capacity of the HVAC system, the load calculation is also used to determine the SEER rating of the system. SEER stands for Seasonal Energy Efficiency Ratio, and it is a measure of the cooling efficiency of an air conditioning system. It is calculated by dividing the total cooling output of the system over a typical cooling season by the total energy used by the system during that same period. The higher the SEER rating, the more efficient the system is at converting energy into cooling power.

    In summary, load calculation is a vital step in the design and installation of an HVAC system. It is a process used to determine the heating and cooling needs of a building and helps to ensure that the system is properly sized and can effectively heat and cool the space. It takes into account factors such as the size of the building, the number of windows, the insulation levels, the local climate, and the number of people that will be occupying the space. It is typically done by a professional HVAC contractor

     

     

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  • What size HVAC system should I get for my home?

    ​​This all depends on the size of home, type of windows, R value of insulation, ceiling height, etc. Once all the data is collected, a manual J calculation is performed to let us know what size system your home will require.

  • Why should I perform preventative maintenance?

    It is important to perform maintenance twice per year to keep your system running efficiently through all seasons. This prevents costly breakdowns, while prolonging the life of the equipment.