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Good Quality of Traps

China Good Quality of Traps, Find details about China Sump Pump, Sp Slurry Pump from Good Quality of Traps

Model NO.
BODA-204
Position of Pump Shaft
Vertical Pump
Pump Casing Combined
Verticaljoint Surface Pump
Mounting Height
Suction Centrifugal
Impeller
Open
Usage
Pump, Pumps, Condensate Pump, Ash Pumps, Circulating Pump
Material
High-Chromium Alloy Ba05 Ba07 Ni-Hard etc.
Discharge Diameter
40-300mm
The Length of The Immersed in Liquid
0.9m-4m
Theory
Centrifugal Pump
Structure
Single-Stage Pump
Power
Electric
Standard or Nonstandard
Standard
Fuel
According to User Choice
Application
Sewage / Sump / Mining Dewatering
OEM
Yes
Trademark
boda
Transport Package
Wooden Case or as Required
Specification
As you requested
Origin
Shijiazhuang, Hebei
HS Code
8413709990
Model NO.
BODA-204
Position of Pump Shaft
Vertical Pump
Pump Casing Combined
Verticaljoint Surface Pump
Mounting Height
Suction Centrifugal
Impeller
Open
Usage
Pump, Pumps, Condensate Pump, Ash Pumps, Circulating Pump
Material
High-Chromium Alloy Ba05 Ba07 Ni-Hard etc.
Discharge Diameter
40-300mm
The Length of The Immersed in Liquid
0.9m-4m
Theory
Centrifugal Pump
Structure
Single-Stage Pump
Power
Electric
Standard or Nonstandard
Standard
Fuel
According to User Choice
Application
Sewage / Sump / Mining Dewatering
OEM
Yes
Trademark
boda
Transport Package
Wooden Case or as Required
Specification
As you requested
Origin
Shijiazhuang, Hebei
HS Code
8413709990
Good Quality of Traps
Good Quality of Traps

The steam trap is a valve used in steam pipe networks and equipment to automatically discharge condensed water, air and other non-condensable gases, and to block water vapor leakage. According to the working principle of the steam trap, the steam trap can be turned into the following three types: mechanical type: relying on the change of the height of the condensate in the steam trap, 1. The steam trap is installed between the steam heating device and the condensate return header. When driving, the bucket is at the bottom and the valve is fully open. After the condensate enters the trap, it flows to the bottom of the bucket, fills the valve body, and is completely immersed in the barrel. Then, the condensed water is discharged to the return header through the fully open valve. 2. Steam also enters the trap from the bottom of the barrel, occupying the top of the barrel and creating buoyancy. The barrel slowly rises and gradually moves the lever in the direction of the seat until the valve is completely closed. Air and carbon dioxide gas collect through the exhaust orifice of the barrel and collect at the top of the trap. The steam discharged from the vent hole will condense due to the heat dissipation of the trap. 3. The barrel begins to exert a pulling force on the lever when the incoming condensate begins to fill the barrel. As the condensate level continues to rise, the resulting force continues to increase until the pressure differential can be overcome and the valve is opened. 4. When the valve begins to open, the pressure differential acting on the valve flap will decrease. The barrel will drop rapidly and the valve will be fully open. The non-condensable gas accumulated on the top of the trap is discharged first, and then the condensed water is discharged. When the water flows out of the barrel, it drives the dirt out of the trap together. At the same time as the condensate discharges, the steam restarts into the trap and a new cycle begins.

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