- We are using external air for the heat transfer process to cool hot fluids. In the heat exchanger, the hot fluid flows through tubes with attached fins, allowing heat transfer to the surrounding air circulated by a fan..
Features
The air cooling unit maintains the appropriate temperature in the workplace using an air cooling method.
With the L-Fin tube method, heat conduction is fast, and air resistance is minimized, resulting in a high conductivity rate.
Increased contact surfaces allow for free air circulation, enabling rapid heating and cooling in a short amount of time.
Applications
Petrochemical plants, refineries, power plants, and other industrial facilities.
Plate Fin tube type
(water cooler)
Principle
Overview
The structure is designed to facilitate heat exchange using heat plates. Passing a hot medium through one side of the plates and a cold (less hot) medium through the other transfers heat from the hot medium to the cold medium.
Features
The Water Cooler uses a Water Cooling method for medium and large electric motors, preventing foreign substances from entering the motor by blocking external air.
Used in cooling systems for large electric motors in steelmaking equipment and marine engines.
Manufactured using a Plate Fin type with a high cooling efficiency compared to its size, providing excellent cooling effects.
Applications
Refrigeration and air conditioning industries, dairy and food sectors, chemical, petroleum, pharmaceutical industries, shipbuilding, and more.
Shell & Tube Heat exchanger
Principle
Overview
A heat exchanger is widely used across various industries. It is not significantly affected by temperature and pressure. It is suitable for all purposes, such as heating, evaporation, cooling, and condensation, within the materials' permissible temperature and pressure ranges.
Features
The Shell & Tube Heat Exchanger is a commonly used heat exchanger for all processes.
It is applied to plant equipment using heat recovery and heat generation by inducing thermal changes in various fluids such as Water, Oil, Steam, Air, LNG, and O2.
The device efficiently transfers heat from one fluid to another, achieving the required performance.
It separates fluids with different properties, maintaining the properties of both fluids while utilizing the necessary thermal energy.
Applications
Nuclear power plants, petrochemical plants, oil refineries, natural gas processing (liquefiers, etc.)
Gas Heater
(Paint Booth Equipment)
원리
Overview
The Gas Heater generates and maintains high temperatures inside an indirect heat exchanger by creating a flame using a burner for gases such as LNG, LPG, and ETHYLENE. High-temperature air is obtained by passing air through the exterior.
Features
High-temperature air is supplied to maintain the appropriate temperature inside a painting factory.
The Gas Heater helps improve paint quality by maintaining the appropriate surface temperature.
Available in both stationary and mobile types, it is designed, installed, and used according to the site's specific conditions.