Detailed Description
What Is a Stainless Steel Pressure Reactor with Lifting Mechanism
A stainless steel pressure reactor with lifting mechanism is a sealed high-pressure vessel designed for chemical reactions that require controlled temperature, pressure, and mechanical stirring under safe operating conditions.
The lifting mechanism allows the reactor vessel to be raised and lowered smoothly.
This improves operational efficiency and reduces risks during material charging, product discharge, and routine cleaning, especially in laboratory and pilot-scale high-pressure environments.
Key Features of the Stainless Steel Pressure Reactor with Lifting Mechanism
Wide Capacity Range for Laboratory and Pilot Scale
The stainless steel pressure reactor with lifting mechanism is available in working volumes from 0.1 L to 50 L.
It supports laboratory research, process optimization, and pilot-scale validation across multiple reaction conditions.
High-Pressure Resistance up to 22 MPa
The pressure reactor with lifting mechanism operates safely at pressures up to 22 MPa.
This makes it suitable for advanced chemical synthesis, hydrogenation reactions, and other demanding high-pressure laboratory processes.
Precise Temperature Control with PID System
This stainless steel pressure reactor supports operating temperatures up to 350 °C.
An advanced PID temperature control system provides real-time digital feedback, ensuring stable, accurate, and repeatable reaction conditions.
Efficient Mechanical Stirring for Uniform Mixing
The pressure reactor with lifting mechanism is equipped with a high-torque mechanical stirring system.
Adjustable stirring speeds ensure uniform mixing for viscous, multiphase, and solid–liquid reaction systems.
Durable Stainless Steel Construction and Chemical Compatibility
The reactor vessel is manufactured from 304 or 316L stainless steel, providing excellent mechanical strength and corrosion resistance.
An optional PTFE lining is available for applications involving corrosive or aggressive chemical media.
Safe and Convenient Lifting Mechanism
The stainless steel pressure reactor with lifting mechanism is supplied with a manual lifting system as standard.
An optional electric lifting mechanism improves safety and convenience during frequent operation, loading, and maintenance.
Technical Specifications of the Pressure Reactor with Lifting Mechanism
The following specifications define the operating range and configuration options of the FCF Series Stainless Steel Pressure Reactor with Lifting Mechanism.
Reactor Volume: 0.1–0.25 L / 0.5 L / 1 L / 2 L / 5 L / 10–20 L / 30–50 L
Maximum Pressure: ≤ 22 MPa
Maximum Temperature: ≤ 350 °C
Stirring Speed:
10–800 rpm (≤ 2 L)
10–500 rpm (5 L and above)
Heating Method: Electric heating
Heating Power: 0.9–9 kW (depending on model)
Motor Power: 80–380 W (depending on model)
Lift Mode: Manual lift, optional electric lift
Material: 304 / 316L stainless steel, optional PTFE lining
Temperature Control: PID system with real-time digital feedback
Applications of the Stainless Steel Pressure Reactor with Lifting Mechanism
The stainless steel pressure reactor with lifting mechanism is widely used in laboratory and pilot-scale environments for:
High-pressure chemical synthesis
Pharmaceutical and API research
Hydrogenation and catalytic reactions
Advanced materials and polymer research
Pilot-scale process development using a pressure reactor with lifting mechanism
Recommended Supporting Equipment
To improve safety and operational efficiency, the pressure reactor with lifting mechanism can be combined with:
Vacuum pump system for degassing before high-pressure reactions
High-pressure gas regulator for safe handling of hydrogen and reactive gases
Cooling circulator for rapid temperature reduction after reactions
Explosion-proof cabinet for enhanced operator safety
Data logger for automated temperature and pressure recording
Safety, Scalability, and Operational Reliability
Designed for laboratory and pilot-scale use, the stainless steel pressure reactor with lifting mechanism provides reliable performance under demanding high-pressure operating conditions.
Its modular design supports easy scalability from laboratory research to pilot production.
Corrosion-resistant materials, robust mechanical construction, food-grade silicone seals, and precise PID temperature control ensure long-term operational stability and user safety.
Product Demonstration and Documentation
Watch real operation videos of the stainless steel pressure reactor with lifting mechanism to better understand installation, operation, and maintenance procedures:
Product Demonstration Video:
Detailed technical documentation, operating manuals, and maintenance guidance are available to support daily laboratory use.
Explore More Stainless Steel Pressure Reactor Solutions
Explore our full range of stainless steel pressure reactors with lifting mechanisms for laboratory and pilot-scale applications:
High-Pressure Reactor Product Category:
This helps you compare different volumes, configurations, and pressure ratings to find the most suitable high-pressure reactor for your process.
Shipping Information
We provide worldwide shipping for all laboratory equipment. Every order is carefully packaged to ensure safe delivery. If the item is in stock, it will be shipped within 3–7 business days after payment confirmation. For out-of-stock items, we will inform you of the estimated shipping time based on the specific product.
Shipping Methods: DHL, FedEx, UPS, or sea freight (depending on order size and destination)
Estimated Delivery Time:
Asia: 5–10 business days
Europe & North America: 7–12 business days
South America & Africa: 10–15 business days
Sea freight: subject to actual transit time
Tracking: A tracking number will be provided via email once the shipment has been dispatched.
Customs & Duties: Buyers are responsible for any import taxes or customs duties required by their country or region.
For bulk orders, custom packaging, or special shipping arrangements, please contact our team for personalized assistance at lab@equilrxnlab.com.
Product specifications
| Parameter | FCF-0.1-0.25 | FCF-0.5 | FCF-1 | FCF-2 | FCF-5 | FCF-10-20 | FCF-30-50 |
|---|---|---|---|---|---|---|---|
| Reactor Volume (L) | 0.1-0.25 | 0.5 | 1 | 2 | 5 | 10-20 | 30-50 |
| Pressure Range (MPa) | ≤22 | ||||||
| Temperature Range (°C) | ≤350 | ||||||
| Heating Method | Electric Heating | ||||||
| Heating Power (kW) | 0.9 | 1.5 | 2 | 4 | 6 | 9 | |
| Stirring Speed (r/min) | 10-800 rpm | 10-500 rpm | |||||
| Motor Power (W) | 80 | 150 | 380 | Varies by model | |||
| Temperature Control | Real-time display of speed, temperature, working time, heating voltage with PID automatic temperature controller for stable temperature control. Optional electronic motor and microcomputer control for enhanced precision. | ||||||
| Operating Environment | Ambient temperature 0-50°C, relative humidity 30%-85%, no flammable or explosive gases around. | ||||||
| Lift Mode | FCF model features manual lift, with optional electric lift. | ||||||
| Material | 304/316L Stainless Steel, optional PTFE lining. | ||||||
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Application Scenarios
The FCF Stirring and Heating High-Pressure Reactor is designed for various laboratory and industrial applications, particularly for chemical reactions requiring precise control over high temperature and high-pressure environments. Its high-performance design ensures stability and consistency under demanding conditions, making it ideal for the following areas:
Chemical Synthesis
Ideal for complex chemical synthesis processes, including catalytic reactions, polymerization reactions, and solvent chemistry. Under high-pressure conditions, the reactor provides uniform mixing and precise temperature control, ensuring efficient conversion of reactants.Materials Research and Development
In materials science, especially for the synthesis and characterization of materials under high-temperature and high-pressure conditions, the FCF reactor offers the precision required for developing new high-performance materials, nanomaterials, superconductors, and more.Pharmaceutical Production
The FCF reactor is highly suited for pharmaceutical synthesis and production under high-pressure reactions. Its precise thermal control and stirring system ensure repeatability and stability in drug synthesis processes, especially when dealing with high-viscosity or solid-liquid mixtures.Catalyst Research and Applications
The high-pressure reactor is particularly beneficial for catalyst development and testing, allowing researchers to simulate real reaction conditions and assess catalysts’ performance under extreme temperatures and pressures. This is crucial for industries like petrochemicals, environmental protection, and energy.Environmental Research and Treatment
The reactor is used in environmental protection technologies, especially in waste gas and wastewater treatment. Its precise control under high-temperature and high-pressure conditions makes it suitable for the degradation and treatment of various pollutants.Oil and Gas Industry
Suitable for oil refining, natural gas conversion, and other petrochemical processes involving high-pressure chemical reactions. Its high pressure tolerance and stable performance make it an indispensable tool in the oil and gas industry.
peculiarity
Agitator motor
High power motor, strong and stable performance!
Pressure Gauge
Real-time Monitoring of Reaction Pressure in the Vessel
Stainless Steel Reactor Lid
Equipped with Inlet Valve, Sampling Valve, Exhaust Valve, Pressure Gauge, and Temperature Probe
Controller with intelligent digital display
Intelligent digital temperature controller with automatic temperature control function
