DOAS system Installed at Green Building in India

A dedicated outdoor air system (DOAS) is a type of heating, ventilation and air-conditioning (

HVAC Heating, ventilation, and air conditioning (HVAC) is the use of various technologies to control the temperature, humidity, and purity of the air in an enclosed space. Its goal is to provide thermal comfort and acceptable indoor air quality. HV ...

) system that consists of two parallel systems: a dedicated system for delivering outdoor air

ventilation Ventilation may refer to: * Ventilation (physiology), the movement of air between the environment and the lungs via inhalation and exhalation ** Mechanical ventilation, in medicine, using artificial methods to assist breathing *** Ventilator, a ma ...

that handles both the

latent Latency or latent may refer to: Science and technology * Latent heat, energy released or absorbed, by a body or a thermodynamic system, during a constant-temperature process * Latent variable, a variable that is not directly observed but inferred ...

and sensible loads of conditioning the ventilation air, and a parallel system to handle the (mostly sensible heat) loads generated by indoor/process sources and those that pass through the building enclosure.

Background

Traditional HVAC systems, such as

variable air volume Variable air volume (VAV) is a type of heating, ventilating, and/or air-conditioning (HVAC) system. Unlike constant air volume (CAV) systems, which supply a constant airflow at a variable temperature, VAV systems vary the airflow at a constant or v ...

(VAV) systems serving multiple zones, have potential problems in terms of poor

thermal comfort Thermal comfort is the condition of mind that expresses satisfaction with the thermal environment and is assessed by subjective evaluation ( ANSI/ASHRAE Standard 55).ANSI/ASHRAE Standard 55-2017, Thermal Environmental Conditions for Human Occupan ...

and possible

microbial A microorganism, or microbe,, ''mikros'', "small") and ''organism'' from the el, ὀργανισμός, ''organismós'', "organism"). It is usually written as a single word but is sometimes hyphenated (''micro-organism''), especially in olde ...

contamination. Depending on the environment and the parallel system involved, in a DOAS setup the outdoor air system will handle some of the sensible load in addition to the latent load, and the parallel system will handle the remaining sensible load. The main point of a DOAS system is to provide dedicated ventilation rather than ventilation as an incidental part of the process of conditioning interior air. DOAS is a term given to a system that has been used extensively in Europe and in various forms in the US.

System overview

William Coad proposed in 1999 to handle the OA (outdoor air) and return air separately in building

systems. Gatley also describes the application of DOAS for delivering dehumidified air to buildings to improve the indoor air quality and thermal comfort. More recent research efforts have been conducted to study the basics of DOAS with emphasis on the potential advantages compared to the conventional HVAC systems. S.A. Mumma suggests that there are four main problems with conventional all air overhead mixing VAV

systems. These issues of VAV systems highlight the corresponding advantages of DOAS systems. However, some disadvantages of DOAS include: potentially higher first costs, lack of use in the United States, and potentially higher complexity. * Ventilation air in all air VAV HVAC systems: Designers and building engineers are unable to know exactly how the ventilation air that is mixed with the return air in a typical VAV system is distributed throughout the building. Issues such as air leakage, control set points, minimum air volume settings, and short-circuiting (e.g. exhaust air mixing with intake fresh air) can all affect the amount of ventilation air that reaches a space. A DOAS system solves this problem by providing a dedicated supply of 100% outdoor air. * Need for excess outdoor air flow and conditioning in VAV systems: When the multiple spaces equation of

ASHRAE The American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE ) is an American professional association seeking to advance heating, ventilation, air conditioning and refrigeration (HVAC&R) systems design and constructio ...

Standard 62.1-2004 is used, generally from 20-70% more outdoor air is required in an effort to assure proper room air distribution in all air systems than is required with a dedicated outdoor air systems. Cooling and dehumidifying the high outdoor air quantities in the summer and humidifying and heating the air in the winter is an energy intensive proposition. The DOAS system is sized to meet the requirements, and does not require oversizing. * VAV box minimums have to be set high to account for ventilation requirements: perhaps contrary to current practice, VAV box minimums must reflect both the ventilation requirements of the space and the fraction of ventilation air in the supply air. For example, a space requiring 5663

standard litre per minute The standard liter per minute (SLM or SLPM) is a unit of volumetric flow rate of a gas at standard conditions for temperature and pressure (STP), which is most commonly practiced in the United States, whereas European practice revolves around th ...

(SLPM) (200

standard cubic feet per minute Standard cubic feet per minute (SCFM) is the molar flow rate of a gas expressed as a volumetric flow at a "standardized" temperature and pressure thus representing a fixed number of moles of gas regardless of composition and actual flow conditions. ...

(SCFM)) of ventilation air and served with supply air that is 40% ventilation air, will require a box minimum setting of 14158 SLPM (500 SCFM) (i.e. 200/0.4) rather than the conventional practice of 5663 SLPM (200 SCFM). When the box minimums are properly set to satisfy the ventilation requirements, the potential for considerable terminal reheat becomes an issue. Therefore, properly operating all air VAV systems will always use more terminal reheat than dedicated outdoor air systems supplying air at the same temperature. * No decoupling of latent and sensible space loads: The inability to decouple the space sensible and latent loads leads to high space relative humidity at low sensible loads in the occupied spaces. Properly designed dedicated outdoor air systems can accommodate 100% of the space latent loads and a portion of the space sensible loads, thus decoupling the space sensible and latent loads. A parallel sensible-only cooling system is then used to accommodate the sensible loads not met by the dedicated outdoor air systems. There is therefore a strong incentive to control the space latent loads independently of the space sensible loads to avoid moisture related

Indoor air quality Indoor air quality (IAQ) is the air quality within and around buildings and structures. IAQ is known to affect the health, comfort, and well-being of building occupants. Poor indoor air quality has been linked to sick building syndrome, reduced ...

problems.

Parallel terminal systems

For a typical DOAS ventilation system, the outside air system can accommodate around 0-30% of the space sensible load. In order to create a comfortable indoor environment, the balance of the space sensible loads must be accommodated by many other optional equipment choices as follows: * Radiant ceiling panels *A parallel all air variable-air-volume ( VAV) systems *Packaged unitary water source

heat pumps A heat pump is a device that can heat a building (or part of a building) by transferring thermal energy from the outside using a refrigeration cycle. Many heat pumps can also operate in the opposite direction, cooling the building by removing h ...

*Variable Refrigerant Flow (VRF) systems *

Fan coil unit A fan coil unit (FCU), also known as a Vertical Fan Coil-Unit (VFC), is a device consisting of a heat exchanger (coil) and a fan. As part of an HVAC system found in residential, commercial, and industrial buildings using ducted split air condi ...

Radiant system

Compared to other sensible cooling systems, radiant ceiling cooling panels are the best parallel system choice for use with the DOAS. Because the DOAS only accommodates the space ventilation and latent loads, it provides an opportunity to reduce the required floor-to-floor height by reducing the size of the duct system and the required fan power. There are numerous advantages of a radiant ceiling cooling system coupled with a DOAS. The general evaluation section in 2008 ASHRAE Handbook gives a brief description as follows:2008 ASHRAE Handbook-HVAC Systems and Equipment, ASHRAE, Inc, 2008. The main advantages are: *Because radiant loads are treated directly and air motion in the space is at normal ventilation levels, comfort levels can be better than those of other air-conditioning systems *Meet the requirement of supply quantities for ventilation and dehumidification *Due to the reduced outdoor air quantities, the DOAS system can be installed with smaller duct system *Radiant ceiling cooling panels can eliminate wet surface cooling coils and reduce the potential for septic contamination *The automatic sprinkler system piping can be applied into radiant ceiling cooling panel systems The main disadvantage is related to higher initial costs. Besides the advantages presented above, parallel radiant cooling panels offer other advantages as well, such as compact design, vertical shaft space area savings, and quick accommodation of dynamic controls. Energy savings in DOAS/radiant ceiling cooling panel system can by linked to: cooling coil load reduction, chiller energy reduction, pumping energy consumption and fan energy consumption reduction. In general, due to the total energy recovery and small supply air quantity of DOAS, the chiller energy consumption can be reduced significantly compared to the conventional VAV system. In a study of a pilot DOAS/radiant ceiling cooling panel system, hourly energy simulation predicts that the annual electrical energy consumption of the pilot DOAS/radiant panel cooling system is 42% less than that of the conventional VAV system with economizer control. Beside solving problems with conventional VAV systems that listed above, DOAS offers more benefits as follows: *Reducing more than 50% of mechanical system operating cost compared to conventional VAV systems *Equal or lower first cost with simple controls *Offering up to 80% of points needed for the basic

Leadership in Energy and Environmental Design Leadership in Energy and Environmental Design (LEED) is a green building certification program used worldwide. Developed by the non-profit U.S. Green Building Council (USGBC), it includes a set of rating systems for the design, construction ...

(LEED) certification

Air-based system

There are two main ways to design a DOAS when using an air-based system as the parallel system:

Separate systems with different ductwork

In this setup, there is an outdoor air system that dumps preconditioned air (accounting for latent load and partial sensible load) directly into the space in its own duct/diffuser. There is a separate system (e.g. fan coil unit) that takes air from the space and conditions it to meet the remaining space sensible load. Advantages: *Easier to measure the outdoor air flow rate into the space *Easier to measure airflows and balance system *Avoids imposing ventilation loads on space HVAC equipment (

) Disadvantages: *Separate ductwork for parallel paths can increase first costs *Separate diffusers for outdoor air and recirculated air may not provide adequate mixing *Separate parallel paths for airflow increases overall airflow to the space which can increase overall fan energy consumption

Combined system

Conditioned outdoor air is ducted to the terminal unit in the space. In this setup, the preconditioned outdoor air is ducted into the fan coil units directly, mixing with the return air from the space. This system is similar to a

chilled beam A chilled beam is a type of radiation/convection HVAC system designed to heat and cool large buildings through the use of water. This method removes most of the zone sensible local heat gains and allows the flow rate of pre-conditioned air from the ...

setup. Advantages: *Combined ductwork leads to lower initial costs *Combined airflow reduces air volume and consequently fan energy use *Thorough mixing of outdoor air and return air from space Disadvantages: *Local terminal unit must operate whenever ventilation is required, regardless whether or not the sensible load has been met *Balancing airflow may be more difficult

Equipment

With the increasing application of DOAS in many countries, there is also increasing demand for DOAS equipment, such as a total energy wheel that uses total energy recovery, a passive

dehumidifier A dehumidifier is an air conditioning device which reduces and maintains the level of humidity in the air. This is done usually for health or thermal comfort reasons, or to eliminate musty odor and to prevent the growth of mildew by extracting wa ...

wheel, and other relevant equipment. The effectiveness of the total energy wheel is an important factor for improving the efficiency of DOAS.

Design

The requirements in the design of a DOAS include: *Separating the OA system from the thermal control system to ensure proper ventilation in all occupied spaces *Conditioning the OA to handle all the space latent load and as much of the space sensible load as possible *Maximizing the cost-effective use of energy recovery equipment *Integrating

fire suppression Wildfire suppression is a range of firefighting tactics used to suppress wildfires. Firefighting efforts in wild land areas require different techniques, equipment, and training from the more familiar structure fire fighting found in populated a ...

and energy transport systems *Using ceiling radiant sensible cooling panels for occupant thermal control Mumma proposed the following steps for designing the DOAS: *Calculating the space sensible and latent cooling loads on the summer design day based on the design conditions for the space *Determining the minimum air flow rate that each space requires based on the ASHRAE Standard 62.1 ventilation guidelines *Determining the supply air humidity ratio for each space *Typically, the design supply air

dry bulb temperature The dry-bulb temperature (DBT) is the temperature of air measured by a thermometer freely exposed to the air, but shielded from radiation and moisture. DBT is the temperature that is usually thought of as air temperature, and it is the true ther ...

will equal the required supply air

dew point The dew point is the temperature to which air must be cooled to become saturated with water vapor, assuming constant air pressure and water content. When cooled below the dew point, moisture capacity is reduced and airborne water vapor will cond ...

temperature) *Using energy recovery to move exhaust air heat back to the DOAS unit (during heating seasons) For DOAS with air-based system as parallel cooling system, the following steps were proposed: 1) calculating the sensible cooling load met by the DOAS supply air for each space; 2) calculating the sensible cooling load remaining on the parallel system for each space; 3) determining the supply air

for parallel systems (above the space dew point temperature to avoid condensation); 4) determining the supply air flow rate for each parallel sensible cooling device.

Energy and cost

Many studies have been conducted to demonstrate the energy and cost performance of DOAS in terms of simulations. Khattar and Brandemuehl simulated the parallel system and a conventional single system for a large retail store in Dallas, St. Louis, Washington DC, and New Orleans. The study demonstrated annual energy savings of 14% to 27% and 15% to 23% smaller equipment capacity for the parallel cooling system. Jeong et al. compared the energy and cost performance of a DOAS with parallel ceiling radiant panels to a conventional VAV system with air-side economizer for a nearly office space in an educational building in Pennsylvania. A 42% reduction of the annual energy usage for the DOAS system with substantial savings in both fan and chiller energy use was reported in this study. Emmerich and McDowell evaluated the potential energy savings of DOAS in U.S. commercial buildings. The building model was developed to be consistent with typical new construction and meet the ASHRAE Standard 90.1 ( ASHRAE 90.1) requirements.American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc. (2007). Ashrae standard 90.1. Atlanta, GA The simulation results indicated that the full DOAS resulted in the annual HVAC energy cost savings ranging from 21% to 38%.

References

External links

Stanley A. Mumma, Pennsylvania State University, Pennsylvania
{{DEFAULTSORT:Dedicated Outdoor Air System Heating, ventilation, and air conditioning