High Pressure Reactor
Mini SS High Pressure Autoclave Reactor for Laboratory Use
Item Number : KV-3H
Price varies based on specs and customizations
- Reactor material
- 304/316L Stainless Steel
- Work temperature
- 260 ℃
- Max.work pressure
- 22 Mpa
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Applications
Mini stainless steel reactor is widely used in medicine, beverage, chemical industry, paint, resin, scientific research and industry departments,etc, its heating temperature and speed can programmed according to different reaction processing requirement, reactor material can be 304 or 316L, which can work for different temperatures, max. Working pressure is up to 22Mpa. Its stirring method can be magnetic stirring or mechanical agitating, stirring speed is adjustable. Pressure gauge and vent port valve can be designed in different packages,which will meet different application purposes.
Detail & Parts
KT-HPR-C Series Technical Parameters
1. Motor 2. Circulation port 3. Venting/Feeding valve 4. Discharge valve 5. LCD display
6. Operating buttons 7. Pressure gauge 8. Explosion-proof valve 9. Operating handle
| Model | KT-HPR-C50 | KT-HPR-C100 | KT-HPR-C250 | KT-HPR-C500 |
|---|---|---|---|---|
| Volume | 50mL | 100mL | 250mL | 500mL |
| Material | 304/316 Stainless Steel | 304/316 Stainless Steel | 304/316 Stainless Steel | 304/316 Stainless Steel |
| Design Temp | 270°C | 350°C | 350°C | 350°C |
| Heating/Cooling Rate | ≤3°C/min | ≤3°C/min | ≤3°C/min | ≤3°C/min |
| Design Pressure | 22Mpa | 22Mpa | 22Mpa | 22Mpa |
| Stirring Speed | 0-1000r/min | 0-1000r/min | 0-1000r/min | 0-1000r/min |
| Heating Power | 0.7Kw | 0.7Kw | 0.7Kw | 0.7Kw |
| Heating Method | Modular Electric Heating | Modular Electric Heating | Modular Electric Heating | Modular Electric Heating |
| Stirring Method | Mechanical Stirring | Mechanical Stirring | Mechanical Stirring | Mechanical Stirring |
| Valves | Standard 2 (1 Inlet, 1 Outlet) | Standard 2 (1 Inlet, 1 Outlet) | Standard 2 (1 Inlet, 1 Outlet) | Standard 2 (1 Inlet, 1 Outlet) |
| Explosion-proof Device | Selected based on pressure requirements | Selected based on pressure requirements | Selected based on pressure requirements | Selected based on pressure requirements |
| Pressure Gauge | Selected based on bursting disc pressure | Selected based on bursting disc pressure | Selected based on bursting disc pressure | Selected based on bursting disc pressure |
| Temp. Measurement Hole | Standard size 4mm | Standard size 4mm | Standard size 4mm | Standard size 4mm |
| Net Weight | 11.5KG | 14.5KG | 18KG | 22KG |
| Dimensions (L×W×H) | 310×370×370mm | 330×330×545mm | 330×330×545mm | 350×330×590mm |
KT-HPR-B Series Technical Parameters
1. Pressure gauge 2. Temperature sensor 3. Venting/Inlet valve 4. Outlet valve
5. LCD display screen 6. Operating buttons 7. Explosion-proof valve 8. Operating handle
| Model | KT-HPR-B50 | KT-HPR-B100 | KT-HPR-B250 | KT-HPR-B500 |
|---|---|---|---|---|
| Volume | 50mL | 100mL | 250mL | 500mL |
| Material | 304/316 Stainless Steel | 304/316 Stainless Steel | 304/316 Stainless Steel | 304/316 Stainless Steel |
| Design Temp | 270°C | 350°C | 350°C | 350°C |
| Heating/Cooling Rate | ≤3°C/min | ≤3°C/min | ≤3°C/min | ≤3°C/min |
| Design Pressure | 22Mpa | 22Mpa | 22Mpa | 22Mpa |
| Stirring Speed | 0-1800r/min | 0-1800r/min | 0-1800r/min | 0-1800r/min |
| Heating Power | 0.7Kw | 0.7Kw | 0.7Kw | 0.7Kw |
| Heating Method | Modular Electric Heating | Modular Electric Heating | Modular Electric Heating | Modular Electric Heating |
| Stirring Method | Internal Magnetic Stirring | Internal Magnetic Stirring | Internal Magnetic Stirring | Internal Magnetic Stirring |
| Valves | Standard 2 (1 Inlet, 1 Outlet) | Standard 2 (1 Inlet, 1 Outlet) | Standard 2 (1 Inlet, 1 Outlet) | Standard 2 (1 Inlet, 1 Outlet) |
| Explosion-proof Device | Selected based on pressure requirements | Selected based on pressure requirements | Selected based on pressure requirements | Selected based on pressure requirements |
| Pressure Gauge | Selected based on bursting disc pressure | Selected based on bursting disc pressure | Selected based on bursting disc pressure | Selected based on bursting disc pressure |
| Temp. Measurement Hole | Standard size 4mm | Standard size 4mm | Standard size 4mm | Standard size 4mm |
| Net Weight | 10KG | 13KG | 16.5KG | 20KG |
| Dimensions (L×W×H) | 310×370×345mm | 330×330×525mm | 330×330×525mm | 350×330×570mm |
Features
- Reactor independent designing, remove the reactor from the heater more flexible and convenient
- High temperature control accuracy and uniforming heating, guarantee the stable reaction
- Different stirring method available,flexible combination for different reaction processing conditions
- Different reactor material available, meet different reaction temperature requirement
- Pressure gauge and valve port can be designed freely with multi-purpose processing requirement
Warnings
Operator safety is the top important issue! Please operate the equipment with cautions. Working with inflammable& explosive or toxic gases is very dangerous, operators must take all necessary precautions before starting the equipment. Working with positive pressure inside the reactors or chambers is dangerous, operator must fellow the safety procedures strictly. Extra caution must also be taken when operating with air-reactive materials, especially under vacuum. A leak can draw air into the apparatus and cause a violent reaction to occur.
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FAQ
What Is A High Pressure Reactor?
What Is An Autoclave Sterilizer?
What Causes An Increase In Pressure Within A High-pressure Reactor?
Increasing pressure inside a pressure reactor can be achieved through various means. One common method is by heating a sealed pressure vessel, where temperature and pressure increase proportionately, impacting reaction kinetics. Alternatively, the reaction occurring inside the vessel can induce pressure, and agitation can accelerate this process.
In situations where heating is unsuitable or insufficient pressure is generated, manual pressurization is possible with a compressed gas source, such as a compressor or a pre-compressed canister of inert gas.
Pressure reactors utilize pressure relief valves to safely regulate and maintain pressure, emphasizing their reliable and safe operation.
How Does An Autoclave Sterilizer Work?
How Does A Pressure Reactor Work?
What Are The Advantages Of Using Autoclave Sterilizers?
What Safety Precautions Should Be Taken When Using Autoclave Sterilizers?
Can All Materials And Items Be Sterilized Using Autoclave Sterilizers?
Are There Different Types Of Autoclave Sterilizers Available?
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