There are indeed many types of specialized HVAC systems and technologies used in commercial buildings or infrastructures and these are often much different from the terms used in common residential applications.
A commercial hvac design maybe similar in the structure and processes itself but may also vary at some point based on the scope of the supporting or receiving entity.
Before coordinating with a professional HVAC contractor, one would need a basic or general idea on the kinds of commercial HVAC systems and how they work in order for the operators, businessmen, organizations to be more informed and less confused about the solutions being proposed for the commercial HVAC needs.
Table of Contents
- 1 Types of Commercial HVAC Systems
- 1.1 Variable Air Volume or the VAV
- 1.2 Constant Air Volume or the CAV
- 1.3 Variable Refrigerant Flow or the VRF
- 1.4 Chilled beams (active and passive)
- 1.5 Heat Pump (water to water, water to air, air to air)
- 1.6 Fan Coils (FCU) and Blower Coils (BCU)
- 1.7 Unit Ventilators (UV)
- 1.8 Ceiling Fans
- 1.9 Displacement Ventilation
- 1.10 Geothermal
- 1.11 Hybrid geothermal
Types of Commercial HVAC Systems
Variable Air Volume or the VAV
This is a single duct air system with varying air flow. The supply air temperature can be controlled based on heating/cooling preference or reset based on outside air temperature. VAV systems may include a terminal reheat box to produce better humidity and temperature control.
Constant Air Volume or the CAV
This is a single duct air system this time with constant airflow. Supply air temperature varies based on a call for heat or cooling from the thermostat.
Variable Refrigerant Flow or the VRF
This is a heat-pump system that uses refrigerant as the heating and cooling medium. The presence of one condensing unit can actually serve multiple evaporators to condition the space. The heat recovery option allows the evaporators connected to the same condensing unit be in heating and cooling mode at the same time. This in turn reduces the energy consumption required to heat and cool the spaces because less energy is wasted to the outdoors or condenser water loop.
Chilled beams (active and passive)
A chilled beam is the terminal unit that conditions the space. The chilled beam includes both heating and cooling coil. Active chilled beams have air introduced into the chilled beam to increase the capacity by increasing the induction of the unit. On the other hand, passive chilled beams don’t have air introduced into the unit and heats and cools based on induction only. Chilled beam systems save fan energy because of the reduced airflow required. Humidity and cooling water temperature must be controlled to avoid condensation.
Heat Pump (water to water, water to air, air to air)
Heat pumps can heat a source of heat or cooling. Heat pumps move energy from one location to another and the refrigeration process reverses between heating and cooling modes. Air source heat pumps use the outside air as its heat source in the heating mode and its heat sink in the cooling mode.
Fan Coils (FCU) and Blower Coils (BCU)
A terminal unit which is capable of providing heating and/or cooling to a zone or a space. Ventilation air is typically provided by a dedicated outside air system which supplies outside air directly to the room or to the return ductwork in a ducted system. A fan coil unit contains an internal fan, heating coil and/or a cooling coil. Fan coil units can be noisy because the fan is within the space or close to the space.
Unit Ventilators (UV)
Unit ventilators are typically exposed to the space where it is providing ventilation air and/or conditioning. Unit ventilators consist of an internal fan, and a heating and/or cooling coil. Ventilation air is typically provided by the unit ventilator and can be mixed with return air prior to conditioning the supply air.
Ceiling fans can used as a stand-alone device to improve comfort and with an HVAC system to improve the comfort in a space.
An air distribution system that provides cool air into a space at a low level and at a low velocity. The supply air is introduced near the floor level and rises into the thermal plumes that are formed by heat sources. The system improves comfort because it removes contaminants associated with heat sources.
Geothermal systems use the earth’s internal energy to transfer heat. Heat transfer for a geothermal system is typically completed through a ground loop, pond/lake loop or a well loop.
A hybrid geothermal system consists of a typical geothermal well field and a heating/cooling element to offset the peak thermal load difference between the heating and cooling season. In cooling mode, typically a fluid cooler, cooling tower or heat pump is used to provide additional cooling for the system.
In the heating mode, typically a boiler or heat pump is used to provide additional heating for the system.
A hybrid geothermal system can lower the initial cost of the system by reducing the well field size with a minimal reduction in energy efficiency. The cost reduction and energy efficiency difference varies depending on the location, building load and amount of extra capacity that is required.
If one has the proper knowledge in terms of the kinds of commercial HVAC systems, this can definitely be one of the factors in choosing the right commercial HVAC system applicable in a certain workplace.