Closed Circuit Cooling Tower

            JC Equipments Pvt Ltd is leading Closed Circuit Cooling Tower Manufacturer India. We also Closed Loop Cooling tower Manufacturer in India. Closed circuit cooling tower just like the open type, this type of heat exchangers are mostly in the huge industries. We manufactures two types of closed circuit cooling tower and combined flow and counterflow coolingtower. Closed Circuit Cooling Tower are suitable for Thermal Power Plants.

           Closed Circuit cooling tower certain processes needs a closed loop, that's why the process water for cooling does not come in make contact with the full of atmosphere air. Closed loop type cooling is minimizes process fouling.

Types of Closed Circuit Cooling Tower

• Combined Flow
• Counter Flow

        We may well include various percent of the cooling water from the available water resources to the closed circuit cooling system and we be able to decrease the cooling tower size.

         Mixing ration means the percentage of the added water. If our mixing ratio is zero, it is called absolutely closed system. When the mixing ratio is 100%, it is called an open system.

Closed Circuit Cooling Tower Water Temperature

          Closed Circuit Cooling Towers are accomplished of incoming fluid temperatures as high as 180ºF (82.2ºC),.

Closed Circuit Cooling Tower Design

             Our Closed Circuit Cooling System gives completely rated thermal presentation, which also by yourself verified over special types of flow and high temperature requirements. Closed Circuit Cooling Towers are high effciency and water saving.

How to Design closed circuit Cooling Tower?

            JC Equipments are very specialist in the Closed Circuit cooling tower designing in india and we designing the coolign tower as per the client requirements and well designed for various industries. JC Equipments are particularly designed for thermal power plants and industries. We also design and develop the Closed Loop Cooling Tower and the the system in a highly efficient heat transfer process. We offer high capacity closed circuit design and we provide following flow types, Combined flow, Parallel flow, Counterflow

1. Natural Draft

   • Natural draft cooling towers consist of large chimneys set on an extremely large base. The size of these towers makes them well suited to utility and power production plants
     

     

     which utilize large volumes of water. These large towers may also be found at nuclear facilities, or any structure that requires large amounts of cooling capacity. Natural draft cooling towers operate without the use of fans or blowers. Instead, they rely on principles of evaporation and water pressure to remove heat energy from process water.

   Mechanical Towers

   • Mechanical cooling towers utilize large fans to remove or collect heat from process water used in the facility. These fans force air through the water to extract the maximum amount of heat energy from the water. This energy can then be used within the facility to provide HVAC heating or industrial process heat. It may also be exhausted outside in order to keep process water at the desired temperature.
     Mechanical cooling towers can be divided into two different categories depending on the placement of the fan. In a forced draft tower, the fan sits at the base of the tower to drive air up against the downward flow of the water. These units minimize erosion, condensation and noise issues. Induced draft units feature a fan placed at the top of the tower, which draws air down through the water. Induced draft cooling towers offer a high level of energy efficiency and effective heat exchanger.

   Hybrid Cooling Towers

   • Hybrid cooling towers rely on natural evaporation and water pressure during cooling but may also use a fan to assist the process as needed. These towers are specifically designed to minimize mechanical energy and maximize the efficiency of the cooling process. Fans may be used to handle peak loads or to redirect airflow when natural forces are insufficient. Fans may be placed anywhere within or around the tower as needed to maximize function.