The Key Components of Precision Air Conditioners
The Key Components of Precision Air Conditioners
Precision air conditioners are critical for maintaining optimal temperature and humidity levels in various environments. These systems comprise several key components that work together to provide reliable and precise cooling solutions. In this article, we will explore the essential components of precision air conditioners and their role in ensuring efficient operation.
● Compressor: The compressor is the heart of a precision air conditioner, responsible for pressurizing the refrigerant gas and increasing its temperature. This process enables efficient heat transfer and cooling within the system. By compressing the refrigerant, the compressor ensures that the air conditioner can effectively remove heat from the controlled environment, maintaining optimal temperature levels.
● Condenser: The condenser plays a crucial role in the cooling cycle by transferring heat from the refrigerant to the surrounding environment. It facilitates the conversion of high-pressure, high-temperature refrigerant gas into a liquid state, releasing the heat that is absorbed during the cooling process.
● Evaporator: Actual cooling takes place in the evaporator. The refrigerant evaporation is brought on by the air’s heat absorption by it. An atmosphere that is colder is produced when the refrigerant evaporates and absorbs heat energy from the air. The cooled air is then circulated back into the controlled space, ensuring a comfortable and temperature-controlled environment.
● Expansion Valve: Controlling the flow of refrigerant into the evaporator is the expansion valve’s function. By controlling the refrigerant’s pressure and temperature, the expansion valve ensures that the cooling system operates optimally.
● Air Filters: These conditioners are equipped with air filters that capture and remove dust, pollutants, and particles from the circulating air. These filters improve indoor air quality by preventing the buildup of contaminants and allergens. Additionally, clean air filters help maintain the efficiency of the cooling system.
Integration with Supporting Systems
Precision air conditioners often integrate with supporting systems to enhance their performance and reliability.
● Servo Stabilizer: A servo stabilizer is used to regulate and stabilize the incoming UPS power supply for the precision air conditioner. It ensures a consistent voltage level, protecting the system from voltage fluctuations.
● UPS System: Uninterruptible Power Supply (UPS) systems provide backup power during unexpected power outages. By supplying continuous power, UPS systems ensure that these air conditioners can operate seamlessly, maintaining temperature control even in the absence of the main power supply.
● VRLA Battery: Valve-Regulated Lead-Acid (VRLA) batteries are commonly used in UPS systems to provide reliable backup power. These batteries offer seamless and uninterrupted power supply to precision air conditioners during power disruptions, ensuring that the cooling system remains operational.
The Final Thought
Precision air conditioners rely on a combination of key components to deliver efficient and reliable cooling solutions. From compressors and condensers to evaporators and expansion valves, each component plays a vital role in maintaining precise temperature and humidity levels. When integrated with supporting systems like servo stabilizers, VRLA batteries, etc., the performance and reliability of precision air conditioners are further enhanced.
Precision Air Conditioner (PAC)
The introduction of hot and cold aisles allows the cabinets to be arranged "face-to-face and back-to-back" in large data centers. In this way, cool air and warm/hot air generated by cabinets can be separated, thus avoiding adverse impact on cooling performance. Sealed cold and hot aisles facilitate efficient utilization of cooling capacity and eliminate local hot spots
How Precision Airconditioners Works – HVAC & Engineering
As the name suggest the precision control of temperature & humidity is achieved by precision Airconditioners (PAC’s). Unlike comfort application it is not for air-conditioning of people but it is used for cooling of high heat generating IT & electronic equipment’s, with a capacity of maintaining a tolerance limit of +/- 1°C in temperature and +/- 2% in Relative Humidity. This system works on high sensible heat ratios.
Sensitive electronics must be maintained in a stable environment of 20 – 25°C temperature with a relative humidity of 40% to 55% all- round the year. The computers and electronic equipment generate large quantities of heat in small areas, nearly 6 to 10 times the heat density of normal office space, the air conditioning system must have more than just enough cooling capacity. It must have the precision to react quickly to a drastic change in heat load and prevent wide temperature and humidity fluctuations.
PAC’s are widely used in below application:
Data Centers
Laboratories
Telecom industries
Hospitals etc.
Since the appliances like IT servers are operational 24/7 , the PAC systems also has to work for 24/7 round the clock.
COMPONENTS OF PRECISION AIRCONDITIONERS
Indoor Unit
COMPRESSOR: These units are equipped with higher efficient scroll compressor/ Digital scroll compressor or Inverter Scroll compressor on demand. Features low vibration, low noise and high reliability which works 24/7. Unlike Comfort AC compressor in PAC system are fitted inside Indoor unit only.
EVAPORATOR: Finned tube evaporator with high heat dissipation efficiency is used. The distributor, with its model-specific design, ensures that the refrigerant is distributed evenly in each loop, improving the evaporator efficiency to a great extent.
THERMAL EXPANSION VALVE – The external equalizer type thermal expansion valve collects temperature and pressure signals at the same time, so that it can regulate the refrigerant flow more accurately. Electronic expansion value can also be used for enhanced performance.
HUMIDIFIER/DEHUMIDIFIER/ELECTRICAL HEATER – Humidifier or dehumidifier fitted in the unit is adjustable to a wide range of water qualities, with fast start-up and high humidifying efficiency important in order to control the static electricity in the air. Electrical Heaters are used to lower humidity of space.
EC FAN – The system uses centrifugal backward or forward curve EC (electronically controlled) fan with high efficiency and reliability, large airflow and long blowing distance. This are very low noise fans.
AIR FILTERS– High efficiency Air filters are used to remove dust & other particles from supplied air.
FILTER DRIER – The filter drier can effectively eliminate the moisture in system within a period of time, filter the impurities generated during long-term system operation and ensure normal system operation.
MICRO-PROCESSOR CONTROLLER– Each Precision AC is equipped with an advance microprocessor controller
The controller is a microprocessor programmable logic controller. It has Separate indication of operating modes (cooling, heating, humidifying and Dehumidifying), alarm conditions (temperature high, loss of sensor, Compressor HP & LP, wet floor, no air flow and low humidifier water).
ROOM TEMPERATURE AND HUMIDITY SENSOR-Room Temperature and Humidity level to be set in the Microprocessor Controller for the desired condition to be maintain in the Room. Pressure sensors in the floor void to precisely control the supply rate, placing temperature sensors on the intake grills on the server rack is recommended to control the supply temperature from the CRAC units as this matches the actual intake.
Outdoor Unit
CONDENSER COIL- The outdoor condenser unit consists of Fin tube type condenser coil where hot refrigerant transfers heat energy to the atmosphere which was collected from the space to be cooled.
CONDENSER FAN-High efficiency Axial fans are used to blow outside air over condenser coil for effective heat transfer.
TYPES OF PAC
Based on Fluid used
DX PAC – Uses refrigerant as cooling medium mostly R410a, R407C
Chilled water PAC -Chilled water is supplied to cooling coil from chiller.
Dual Fluid PAC- Two cooling coils are provided one for refrigerant & other for chilled water to make sure backup in case of any one system fails. Mostly DX system are operational & chilled water coil is provided as backup.
Based on Air discharge
Bottom Discharge type
Top Discharge type
WORKING PRINCIPLE
Most common technology used with Precision airconditioners are Hot aisle or Cold aisle containment.
IT room floors are raised to certain level (300 to 600 mm) to create void for movement of cooled supplier air or hot return air.
The conditioned cold air will be forced by a fan in the CRAC/PAC unit into the void under the floor and small holes or grills in the floor tiles will allow the air to leave the void in strategic places.
This air will collect the heat and rise up towards the ceiling. The PAC units then suck this warm air back into the unit to be reconditioned.
The fan is usually provided in the cabinet of IT equipment which push hot air out & sucks cold air into the cabinet.
Hot air from equipment are either collected above the ceiling or through the return ducting & supplied to PAC unit.
This means the servers receive only fresh cold air and the PAC units receive the hot discharge air which increases the temperature differential across the PAC units heat exchanger and that will improve the efficiency of the machine.
Room Temperature and Humidity level to be set in the Microprocessor Controller for the desired condition to be maintain in the Room.
Pressure sensors are placed in the floor void to precisely control the supply rate.
Temperature sensors on the intake grills on the server rack is recommended to control the supply temperature from the CRAC units.
Best strategy to be used in positioning of server racks & PAC units to achieve highest efficiency from the system. Cold Aisle containment is recommended technology & most widely used in Data centers.
ADVANTAGES OF PRECISION AIR CONDITIONERS OVER COMFORT/STANDARD AIR CONDITIONERS:
Precise and quick processor-based temperature control, to keep your IT equipment at the right temperature, always.
Precise humidity control. Electronic devices require a steady level of humidity for proper functioning. Both high/low humidity levels can impede them on the long run.
Designed for 24 x 7, 365 days continuous operation. Room air conditioners are generally designed to be used for a few hours, that too during summers.
Precision air conditioners are designed to manage high levels of sensible heat (heat without humidity, emanated by machines) while comfort/standard air conditioners are designed to manage latent heat (heat with humidity, emanated by people).
Precision airconditioners demonstrate better air distribution. They have higher CFM rates that movies more air volume at higher speeds than standard AC’s. That also means that there are less airborne particles due to the AC.
Precision airconditioners can handle higher heat and AC load densities per each unit.
For larger premises, several units of precision air conditioners can coordinate with each other and automatically control (increase/decrease) individual AC loads, for efficient cooling.
Precision airconditioners can deploy new features or enhance existing ones as their software/firmware is regularly updated.
Precision air conditioners have better, faster support facilities/contracts, as vendors specialized for them understand the critical nature of IT support and maintenance.
It is also possible to remotely monitor/troubleshoot precision air conditioners, for quick problem resolution.
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