Type of Water Chiller Plant

The choice of the Type of Water Chiller Plant is largely dependent on its capacity. Typically, a water-cooled chiller will be larger than an air-cooled chiller. Both types of water-cooled chillers have two main loops: the primary loop pumps chilled liquid through the chiller at a constant rate, while the secondary loop delivers chilled fluid to air handling units or fan coil units to provide conditioned air.

The main components of a water-cooled unit are an evaporator and a cooling coil. The evaporator and cooling coil are the same equipment used in a vapour compression cycle. The primary refrigerant is stored on one side of the evaporator, while the secondary refrigerant is stored on the other. The chiller then cools the liquid to maintain the temperature in the room.

The air-cooled chiller plant uses less space than a water-cooled unit, but it is much louder. The air-cooled unit is located outside of the building, increasing the cooling tower's noise. Moreover, the noise produced by this cooling system is significantly louder than the one produced by a water-cooled unit. A sound increase of 10 dB is equivalent to double the noise generated by an air-cooled chiller.

What We Do As a Water Chiller Plant Manufacturing Company

Our goal is to make your new chiller the most energy-efficient one possible. We focus on two main goals: increasing energy efficiency and lowering maintenance costs. The first goal is to lower overall plant costs. We can do this by offering several different options, including a water-cooled chiller plant.

The second goal of our Water Chiller Plant Manufacturing company is to minimize the costs of maintaining and operating your water-cooled chiller. We can help you determine the most efficient chiller for your facility. The first step is to evaluate your cooling needs and the size of the system. We recommend a water-cooled unit if you need a big chiller for a small building. Then, it would help if you looked for an appropriate cooling tower.

The second goal is to determine how much cooling capacity you need. A water-cooled chiller must be coupled with a cooling tower. A larger water-cooled chiller will require more space than a smaller one. A larger water-cooled chiller may be necessary for a high-rise building. Choosing a water-cooled unit is the best option for high-rise buildings. Then, you can use a cooling tower for a smaller facility.

Specifications

Flow Range: 500 LPH to 10000 LPH

Materials: FRP, SS

Operation: Semi - automatic / fully automatic

Advantages of Chiller Plant

• Longer Lifespan
• Quiet Operation
• Energy Efficiency
• No Open Space Needed
• Safety
• Online Chiller
• Auto cutoff chillers
• Capacity of 1000 lph to 10000 lph
• Capacity of Chiller 2 ton,3 ton,4 ton,5 ton,6 ton,8 ton

The first step in designing a water chiller plant is to determine its load profile. Most plants are designed to operate at maximum capacity, but they can also be set up to run in part-load conditions. The load profile of a given building will determine how efficient the chiller is at full-load and part-load conditions.

The next step in choosing a water chiller plant is to determine its size. The amount of chilled water needed to cool a building is often dependent on the amount of water needed to cool it. A single machine may be large enough to serve a building, but it may not be large enough to chill a large room. For this reason, you should choose a larger unit or a smaller one based on the temperature profile of the building.

The next step in selecting a water chiller plant is to determine its load. The block load, or total load, of a building determines the cooling system's capacity and how many chillers are needed. A single pump can serve several buildings, and multiple units can stage them to respond to a fluctuating load. Depending on the load, the function of space may dictate the amount of cooling needed. A redundant system is essential if the space is important for a particular service.