Horizontal Fan Coil
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Horizontal Fan Coil
Vertical Fan Coil
Horizontal Fan Coil
Horizontal Fan Coil
UV-C technology can help increase the efficiency of fan coil units (FCUs) in HVAC systems by improving the cleanliness of the FCU components and reducing the accumulation of dirt and microbial growth.
FCUs are a common type of air handling unit that are used to regulate the temperature and humidity of indoor spaces. These units contain a fan, a heating or cooling coil, and a filter to remove airborne particles from the air. However, over time, dust, dirt, and microbial growth can accumulate on the FCU components, reducing the efficiency of the unit and potentially causing indoor air quality problems.
UV-C technology can help to address these issues by using ultraviolet light to kill or inactivate microorganisms and prevent their growth on the FCU components. UV-C lamps can be installed inside the FCU to irradiate the cooling or heating coils and the drain pan to keep them free from microbial growth. This can help to reduce the accumulation of dirt and other debris on the FCU components, which can in turn help to increase the efficiency of the unit and prolong its lifespan.
By keeping the FCU components clean and free from microbial growth, UV-C technology can also help to prevent the spread of airborne illnesses and improve indoor air quality. However, it’s important to note that the effectiveness of UV-C technology in improving FCU efficiency will depend on a variety of factors, including the design of the FCU and the specific application of the UV-C technology. Please consult with Cognituv to have a prescribed solution for your FCU disinfection needs.
Bard Wall Mount
Bard RTU
Bards Wall Mount
UV-C technology can help increase the efficiency of Bards (wall-mounted heating and cooling units) and RTUs (rooftop air handling units) in the HVAC industry by improving the cleanliness of the HVAC components and reducing the accumulation of dirt, mold, and other contaminants.
Bards and RTUs are common types of HVAC equipment used to regulate the temperature and humidity of indoor spaces. Over time, these units can become dirty and contaminated with microorganisms, such as mold and bacteria, which can reduce the efficiency of the units and cause indoor air quality problems.
UV-C technology can help address these issues by using ultraviolet light to kill or inactivate microorganisms and prevent their growth on the HVAC components. UV-C lamps can be installed inside the HVAC unit to irradiate the cooling or heating coils, drain pans, and other surfaces to keep them free from microbial growth. This can help to reduce the accumulation of dirt and other debris on the HVAC components, which can in turn help to increase the efficiency of the unit and prolong its lifespan.
By keeping the HVAC components clean and free from microbial growth, UV-C technology can also help to prevent the spread of airborne illnesses and improve indoor air quality. However, the effectiveness of UV-C technology in improving the efficiency of Bards and RTUs will depend on a variety of factors, including the design of the HVAC unit and the specific application of the UV-C technology. It’s important to consult with Cognituv to help you get a prescribed solution for your specific Bard or RTU.
Make-Up Air Handler
AHU
Large AHU
Walk-In AHU
UV-C technology can be used to help improve the efficiency and cleanliness of large air handler units and air turnover units in several ways.
First, UV-C lamps can be installed inside the air handler unit or air turnover unit to irradiate the cooling or heating coils, drain pans, and other surfaces to keep them free from microbial growth. This can help to reduce the accumulation of dirt, mold, and other contaminants on the HVAC components, which can in turn help to increase the efficiency of the unit and prolong its lifespan.
Second, UV-C technology can also be used to treat the air flowing through the air handler unit or air turnover unit. UV-C lamps can be installed inside the ductwork to irradiate the air and kill or inactivate microorganisms, such as bacteria and viruses, that may be present in the air. This can help to improve indoor air quality and prevent the spread of airborne illnesses.
Third, UV-C technology can help to improve the cleanliness of air handler and air turnover units by reducing the buildup of biofilm in the condensate drain lines. Biofilm is a layer of microorganisms that can form on surfaces and cause blockages in the drain lines, leading to water leaks and indoor air quality problems. UV-C lamps can be installed in the drain lines to prevent the growth of biofilm and keep the lines clean.
Overall, the use of UV-C technology in large air handler units and air turnover units can help to improve indoor air quality, prevent the spread of airborne illnesses, and prolong the lifespan of HVAC equipment. However, it’s important to consult with Cognituv to ensure safe and effective use of UV-C technology in HVAC systems.
Cooling Tower
Water basin
Molded Drip Pan
UV-C technology can be used to help solve problems with water cooling towers and water basins by reducing the growth of microorganisms, such as bacteria, algae, and fungi, that can cause fouling, scaling, and corrosion in the system.
Water cooling towers and water basins are commonly used in HVAC and industrial systems to cool water by evaporative cooling. Over time, these systems can become contaminated with microorganisms, which can cause fouling and scaling on heat transfer surfaces, leading to reduced heat transfer efficiency, increased energy consumption, and reduced equipment lifespan. Additionally, microorganisms can cause corrosion and pitting in the system, leading to leaks and other mechanical problems.
UV-C technology can help address these issues by using ultraviolet light to kill or inactivate microorganisms in the water. UV-C lamps can be installed inside the water basin or on the water recirculation system to irradiate the water and prevent the growth of microorganisms. This can help to reduce fouling, scaling, and corrosion in the system, which can in turn help to increase the efficiency of the system and prolong its lifespan.
By keeping the water cooling tower and water basin clean and free from microorganisms, UV-C technology can also help to improve indoor air quality and prevent the spread of airborne illnesses, as contaminated water can produce aerosols that can be breathed in by people in the vicinity.
Overall, the use of UV-C technology in water cooling towers and water basins can help to improve efficiency, reduce maintenance costs, and improve the overall health and safety of the environment.
Evaporator coil, in duct
Evaporator coil
Non-Synthetic Filter
UV-C technology can be used to disinfect evaporator coils in HVAC systems, which can help to improve indoor air quality and prevent the spread of airborne illnesses.
Evaporator coils are a common component in air conditioning systems, which cool and dehumidify air by passing it over the coils. Over time, these coils can become contaminated with microorganisms, such as mold, bacteria, and viruses, which can reduce the efficiency of the system and cause indoor air quality problems.
UV-C lamps can be installed inside the HVAC system to irradiate the cooling coils and other surfaces and kill or inactivate microorganisms. This can help to reduce the buildup of contaminants on the evaporator coils, which can improve the efficiency of the system and prolong its lifespan. Additionally, by keeping the evaporator coils clean and free from microbial growth, UV-C technology can help to prevent the spread of airborne illnesses and improve indoor air quality.
UV-C lamps can be installed in several locations within the HVAC system, including the return air duct, the supply air duct, or directly on the evaporator coils. The installation location and lamp configuration will depend on the specific application and the design of the HVAC system.
5004 Bee Creek road, #320
Spicewood, TX 78669
Main: 1-888-580-8738
Team@cognituv.com