Specifications

titanium Industrial Coil exchanger
1.100% Titanium material
2.Useful for industry
3.ROHS,CE approved
4.Wit

titanium Industrial  Coil  exchanger
 

*  High heating transferring coeffcient
*  High heat recovery rate
*  Great flexibility
*  Low flow stagnation
*  compact structure
*  Less space occupation

 

 

power	diameter(mm)	PVC shell length(mm)	refrigeration air hatch (mm)	water intake outlet (mm)	remark
1HP	160	350	Φ12.7	50	squing gun
1.5HP	200	400	Φ12.7	50
2HP	200	400	Φ12.7	50
3HP small	200	420	Φ12.7	50
3HP big	315	400	Φ12.7 Φ19	50
5HP	315	600	Φ12.7 Φ19	50
10HP	400	600	Φ12.7 Φ19	50

 

How Heat Transfer Works

Heat transfer occurs when there is a difference in temperature between two mediums. Heat will travel from the hot source to the cold source. The rate at which the heat transfer occurs at is determined by many factors such as the heat conductivity of the two materials andthe difference in temperatures of the two mediums. Convectiuve heat transfer occurs when the materials are moving against each other.

Plate heat exchangers have significantly good heat transfer rates because they use metal plates which have high heat conductivity rates and the plates are extremely thin. The plate heat exchangers also achieve high amounts of heat transfer through convective forces with both working fluids. With large temperature differentials, great amounts of heat transfer can be achieved using a plate heat exchanger.

Corrosion

Corrosion is usually how these units will fail. Use fluids with reasonable pH levels to ensure a long lasting life. Hard water will corrode faster than regular water. (Use distilled if possible; Distilled should never corrode it) Salt water will corrode stainless steel very fast. It is recommended to clean the exchanger often if you are using corrosive fluids. Normal usage (non-corrosive fluids) should expect 10-20 years of life. Fluids containing chlorides will corrode the unit quickly.

Applications

This is an extremely popular unit for wood burning furnaces, radiant floor systems, refrigerant systems, straight vegetable oil conversions, beer chilling, air conditioning system and solar water heating systems. It will work for any application in which the desired result is for two fluids (liquid or gas) to exchange heat.

How it Works

Fluid A passes from the port on the left of the heat exchanger through every other channel created by the plates to the opposite end port on the left of the heat exchanger (looking at it the long way). Fluid B passes from the port on the right through the other channels created by the plates and comes out the other port on the right side. The fluids are essentially touching each other through the plates and heat is transferred from the hot fluid to the cold fluid. (but the fluids do not mix)