With each passing year, construction is getting more and more extensive, with updated infrastructure. Especially for commercial built-ups, such big complexes serve perfectly with bigger areas and multistory buildings, and business purposes find easy solutions. However, with complex designs, air quality and temperature control become very difficult to manage.
Designing an effective system to maintain the temperature of an indoor establishment is not an easy task. Active Chilled Beams are designed by efficient professionals as cooling and heating solutions. For huge indoor spaces, an Active Chilled Beam (ACB) pulls through as an effective temperature managing system. It is also a very energy-efficient manner to cool down or heat up a wide indoor space.
Active Chilled Beams are ceiling-mounted units that use chilled water and airflow induction to control indoor temperatures.
How Active Chilled Beam (ACB) Work?
Active Chilled Beam works in the tendon with the HVAC system. The air supplied by HVAC is received by ACB. ACB utilizes chilled water to make the air chilled and releases the air into the targeted space. ACB can also usher the warm air inside the unit in order to keep the indoor space cool. The ACB unit uses a similar method to heat up the room when needed. The cold air passed from close proximity to heated water coils, ultimately releasing the hot air into the building.
ACB system ensures that guidelines related to indoor air quality and HVAC systems are followed. ASHRAE (American Society of Heating, Refrigerating, and Air-Conditioning Engineers) standards focus on performance, energy efficiency, and indoor air quality and temperature management systems of an indoor establishment. Sustainability and air ventilation are also part of ASHRAE standards.
Lower Energy Consumption:
ACB uses water in order to provide a cooling and/or heating effect. This reduces the consumption of electricity leaving the least carbon footprint. Water is a better carrier of heat compared to air, using this concept, ACB functions smoothly. This enables ACB systems to operate with smaller fans and lower airflow rates, cutting energy consumption by up to 30-40%.
Low Maintenance
ACB is a strongly built unit and requires very little rework or repair over the years. It is a very sustainable option out there in the market. With lower energy demands and minimal maintenance needs, ACB systems are well-known as an eco-friendly solution that fits perfectly with green building practices.
Even Air Distribution
The ceiling induction chilled beams ensures that a large amount of air doesn’t get trapped around one area, while the rest of the space gets a bit vacuumed. ACBs offer consistent and gentle air distribution enhancing indoor air quality (IAQ) and improving the overall environment.
How Induction Systems Work?
The induction system is a part of the HVAC system. It releases the air into the room at a high velocity through nozzles. This creates a low pressure effect in the room. This draws in room air through the induction unit’s heat exchanger coils. The mixed air is then supplied to the occupied space, providing a comfortable and consistent temperature.
Similar to ACB, Induction system also offers temperature regulation. Also, it adheres to the ASHRAE standards.
Lower Fan Power Requirements:
Induction systems don’t require large amount of air, and for that reason, the system uses small fans. This results into lower usage of electricity and energy consumption. This makes the system environment safe and climate friendly.
Lower Operational Costs
As it requires fewer moving parts, it is very cost effective. It also demands minimal frequency of maintenance, ensuring long-term cost savings and increased system longevity. In order to ensure great air quality indoors, search induction unit manufacturers in Ontario. We at EB Air are leading induction unit manufacturers, get in touch with us to find more.
Active Chilled Beam and Induction Systems are integrated design to offer sustainable and efficient temperature and air quality control of air in a building. Their ability to deliver precise temperature control, enhance indoor air quality, and minimize energy consumption makes them ideal for modern, high-performance buildings. Their compliance with ASHRAE standards ensures they contribute to better indoor air quality, lower energy consumption, and enhanced occupant comfort. As sustainable, low-maintenance solutions, they are becoming increasingly popular in modern commercial and institutional buildings aiming for energy efficiency and regulatory compliance.
