Ningxia Petrochemical achieves the lowest material consumption and stable high load operation of the plant
To further improve energy efficiency and reduce resource consumption, Ningxia Petrochemical Company has encouraged its employees to actively study operational procedures and eliminate violations. This initiative aims to enhance the quality of inspections conducted by staff and ensure stricter implementation of energy-saving and emission-reduction measures across key resources such as water, electricity, steam, coal, and natural gas. By focusing on minimizing material consumption and maintaining smooth, high-load operations of equipment, the company is working toward achieving sustainable performance and environmental responsibility. The effort reflects a strong commitment to both operational excellence and long-term ecological balance.
Compact Size: Brazed heat exchangers corrugated plates create multiple flow channels, maximizing the heat transfer surface area within a small footprint. This makes them ideal for applications where space is limited.
Efficient Heat Transfer: The corrugated plates in a brazed heat exchanger create turbulence in the fluid flow, enhancing heat transfer efficiency. The turbulent flow promotes better mixing of the fluids and minimizes the formation of stagnant zones, leading to improved heat transfer rates.
High Thermal Efficiency: The brazing process used in the construction of these heat exchangers ensures a highly conductive joint between the plates.
Reduced Fouling: The design of brazed heat exchangers with smooth and continuous surfaces minimizes the potential for fouling. The absence of gaskets or crevices reduces the likelihood of accumulation of debris or scale, resulting in lower maintenance requirements and improved overall performance.
Wide Range of Applications:
-HVAC systems
-Refrigeration
-Process cooling
-Industrial heating/ cooling.
-liquid-to-liquid and gas-to-liquid heat transfer processes
In an asymmetrical brazed plate heat exchanger, the hot fluid flows through channels with a larger depth, which allows for greater heat transfer. The cold fluid flows through channels with a smaller depth, which offers less resistance to flow, reducing the pressure drop.
This design is particularly useful in applications where one fluid is at a much higher temperature than the other, such as in a Condenser or Evaporator.
Water Cooled Heat Exchanger,Evaporator Copper Plate Heat Exchanger,Solar Heat Pump Evaporator
Jiangsu Baode Heat-Exchanger Equipment Co.,LTD , https://www.baodehex.com