Whether our Finned Tube Heat Exchanger, semi welded plate heat exchanger, Round Shape Cooling Tower is standard design or customized according to customers' needs, it is renowned worldwide for its high performance, high reliability and innovation. We adopt advanced equipment combined with scientific development and research to carry out strict quality management. Our company's production line has been further expanded in recent years. We have a wide range of products, sincerely welcome your patronage and cooperation. Based on the principle of 'customer first, honesty first', we have established long-term cooperative relationship with many enterprises. We try our best to become a green enterprise and environment-friendly enterprise, and actively assume the environmental responsibility of the enterprise.
Introduction of Air heat exchanger
Waste heat recovery heat exchanger, its working principle is that the cold and hot two fluids flow through the same heat exchange surface in turn, and try to avoid mixing with each other. When the hot fluid flows through, the heat exchange surface to absorb and accumulate heat released from the hot fluid; when the cold fluid flows through, the heat exchange surface and heat release to the cold fluid, through the heat exchange surface of this alternating heat absorption, heat release process to achieve cold, hot fluids ask the heat exchange.
In this type of heat exchanger, heat transfer surface periodically absorb and release heat, so this heat exchanger in the heat address transfer process is non-stationary. Such as power plant boilers in the rotary air preheater is this type.
The finned-tube air heat exchanger is designed with a set of parallel tubes arranged in a rectangular array. Each tube is equipped with a series of fins, which greatly increase the surface area available for heat transfer. The hot gas stream from the ammonia synthesis process flows through the inner tubes, while the cold air stream flows over the external fins. Heat is transferred from the hot gas stream to the cold air stream, raising the outlet temperature of the air and reducing the temperature of the hot gas stream.
Application
Most of the organic waste gas from the DC system of grain and oil companies is directly discharged after passing through Shakron.
The waste gas from the first and second stage Shakron is about 80-70°C, with high temperature, high humidity and high VOC content.
The exhaust gas from the third and fourth stage Shakron is about 50-60°C, with high temperature, low humidity, and low VOC content.
The exhaust of DC exhaust gas not only causes greater pollution to the environment, but also a great waste of energy.
We strive to create value for our customers and stakeholders, enhance economic benefits, and insist on cost control throughout the industrial chain and the whole production cycle of the Fan Cooled Finned Coil Heat Exchanger. Selecting the superior and eliminating the inferior, just realized by competition, are the objective law of the social development. Our company constantly standardizes internal management, optimizes export structure and establishes flexible business strategy.