Product description
Summary
The 30W01 self-operated micro- pressure control valve It is widely used for controlling after-valve pressure (mmH2O) of non corrosive gas or air with pressure no higher than1.4MPa, working temperature no higher than 120℃(or 150℃) and pressure control range of 0.14 - 7.2KPa. It is widely applied in gas sealing pressure control devices of various oil products, chemicals and liquid storage tanks.
Body
DN15~100mm
PN1.6.4.0 Mpa
Material :WCB.CF8.CF8M
Bonnet
Material :WCB.CF8.CF8M
Pressure balancing part: diaphragm + spring
Material: spring 304
Diaphragm
NBR : -40 - 120℃
Fluorine rubber : -20 - 150℃
EPR : -50 - 150℃
ZA7 Actuator (pilot)
Diaphragm box Punch forming with A3 steel sheet
Diaphragm NBR, fluorine rubber, EPR
Spring:304
Plug:304
Sea:304
Stem:304
*The actuator with five kinds of pressure control ranges and one model
*Easy assembly and disassembly, convenient control
The 30W01 micro-pressure control valve
DN 15 20 25 32 40 50 65 80 100
Rated flow coefficient Kv 4 6 .3 8 16 20 32 50 80 25
Flow characteristic Quick open
PN 1 .6 Mpa
Pressure balancing part SPRING 1Cr 18 Ni9
Bellows diaphragm NBR Fluorine rubber EPR
Working temperature -40 ~120℃ -20 ~150℃ -50~ 150℃
Allowable leakage (input 0.1MPapressure before the valve) 1 bubble/min 2 bubbles/min 3 bubbles/min
4 bubbles/min 6 bubbles/ min 11 bubbles/min
Main technical parameters of ZA7 actuator (pilot)
Effective area(cm2) 430
After-valve pressure 0 .14~0 .36 0 .3 2~ 1.00 0 .90~2 .50
control range (Kpa) 2 .10~4 .50 3 .9 0~7 .20
Maximum output force Mpa ≤1.4
Minimum output force Mpa ≥0 .2
Diaphragm material NBR Fluorine rubber EPR
Working temperature ℃ -4 0~ 120℃ -20~150℃ -50~ 150℃
Adjusting precision ±15%
Control pipeline, connection Copper pipe or steel pipe Φ10X 1(mm); ferrule connection: R1/4"
Product features:
* Simple structure, convenient installation and commissioning, low maintenance cost
* Wide adjusting range: Adjustment of five levels can be carried out within the range of 14~720mmH2O.
* Fast response and high adjusting precision
* Playing the safety protection function when being used in the storage tank nitrogen sealing system.
Ⅰ.Normal temperature type
A$R\DN 15 20 25 32 40 50 65 80 100
ZA7 Hmm 320 370 390 400 410 438 460 500 520
φ280mm Kg 18 21 26 32 40 47 60 65 71
L 160 160 160 230 230 230 290 310 350
30W02 nitrogen sealing device
Summary
The 30W02 nitrogen sealing device is composed of the control valve, actuator, pressure spring, pilot, pulse pipe and other parts. It is mainly used for maintaining the pressure of gas (generally nitrogen) at the top of the vessel constant so as to prevent the materials in the vessel from contacting the air, volatizing and being oxidized and ensure vessel safety. It is especially suitable for gas sealing protection systems of various large- sized storage tanks. The product has such features as energy saving, agile action, reliable running, convenient operation and maintenance, etc. It is widely used in petroleum, chemical industry, etc.
Body
DN 15.20.25.32.40.50.65.80.100mm
PN Class150.300
Flange standard ANSI.JIS.DIN.GB.JB
Body material WCB.CF8.CF3.CF8M.CF3M
Plug type Single-seat (P), double-seat (N), sleeve (M)
Plug material Hard seal Stainless steel (304.316.316L)
Soft seal Stainless steel embedded with rubber ring
Stem material Stainless steel (304.316.316L)
Pressure balancing Stainless steel bellows
Flow characteristic Quick open
Working temperature ≤80℃
Actuator
pressure setting range 0.4~0.5 5~10 9~14 13~19 18~ 24 22~28
27~33 36~44 42~51 49~58 56~66
Diaphragm cover material Teflon coated A3, A4 steel sheet
Diaphragm material NBR, EPR, fluorine rubber, oil resistant rubber
30W02-01
1 Main valve r 2 Main valve plug 3 Main valve actuator 4 Pressure reducing valve 5 Throttle valve
6 Pilot plug 7Detection mechanism 8 Diaphragm 9 Preset spring
30W02-02
1. Main valve 2. Detection mechanism 3. Spring
Performance
Set value error ±5%
Allowable leakage Standard type Class IV (conforming to GB/T4312-92)
Tight type Class V I (conforming to GB/T4312-92)
Rated flow coefficient, rated travel, performance
30W02-01 nitrogen supply device
DN 25 32 40 50 65 80 190
Seat size 5 6 7 8 10 12 15 20 25 32 40 50 65 80 190
Flow coefficient 0.2 0.32 0.5 0.8 1.8 2.8 4.4 6.9 11 20 30 48 75 120 25
Rated travel 8 10 14 20 25
30W02-02 nitrogen discharge device
DN 20 25 32 40 50 65 80 100
Seat size 20 25 32 40 50 65 81 100
Flow coefficient 6.9 11 20 30 48 75 120 190
Rated travel 8 10 14 20 25
Working principle
In the nitrogen supply device (see figure 1), the medium at the pressure point at the top of the tank is introduced to the detection mechanism (7) through the pressure pipe. The medium produces an acting force on the detection element, which balances the pre-tightening force of the preset spring (8). When the pressure in the tank drops to be lower than the pressure set point of the nitrogen supply device, the balance is destroyed, so that the pilot plug (6) is opened, and the before-valve gas enters the upper and lower diaphragm chambers of the main valve actuator (3) after passing through the pressure reducing valve (4) and throttle valve (5). The main valve plug (2) is opened and nitrogen is filled into the tank. When the pressure in the tank rises to the pressure set point of the nitrogen supply device, the pilot plug (6) is closed by the preset spring force. Due to the spring action in the main valve actuator the main valve is closed and nitrogen supply is stopped.
The nitrogen discharge device (see figure 2) is an internal feedback mechanism. The medium enters the detection mechanism (2) after passing through the bonnet. The medium produces an acting force on the detection element, which balances the pre-tightening force of the spring (3). When the pressure in the tank rises to be higher than the pressure set point of the nitrogen discharge device, the balance is destroyed, so that the plug (1) moves upward to open the valve and discharge nitrogen to the outside. When the pressure in the tank falls to the pressure set point of the nitrogen discharge device, the valve is closed by the preset spring force.
1. Outline dimensions and weight of nitrogen supply device
DN(mm) 25 32 40 50 65 80 100
L 160 180 200 230 290 310 350
A 308 308 308 308 394 394 394
H2 415 415 415 115 415 415 415
H1 60 75 80 85 95 105 120
H 720 730 730 750 790 840 890
Weight (kg) 32 35 40 50 90 115 280
1. Outline dimensions and weight of nitrogen supply device
DN(mm) 25 32 40 50 65 80 100
L 160 180 200 230 290 310 350
A 308 308 308 308 394 394 394
H2 415 415 415 115 415 415 415
H1 60 75 80 85 95 105 120
H 380 400 420 430 550 560 570
Weight (kg) 12 13 15 17 20 28 38