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  • Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction
  • Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction
  • Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction
  • Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction
  • Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction
  • Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction
Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction

Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction

  • 1 - 1 Sets
    $4,900
  • >= 2 Sets
    $4,700
View product details

Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Pressure & Temperature Control: Designed for supercritical chemical reactions, capable of withstanding extreme conditions (high pressure and temperature) in a corrosion-resistant stainless steel chamber.
  • Semi-Automatic Operation: Features a digital control panel for precise monitoring and adjustment of pressure and temperature, enabling semi-automated reaction processes.

Key features

  • 1. Corrosion-Resistant Stainless Steel Construction

    • With a double-layered stainless steel design, ensure durability in harsh chemical environments while maintaining structural integrity under extreme pressures. Outperforms reactors using less durable materials in corrosive applications*

  • 2. Digital Touchscreen Interface for Precision Control

    • With a multi-functional touchscreen panel, adjust pressure and temperature settings for complex reactions with ease. Streamlines workflows compared to manual systems, reducing operational errors*

  • 3. High-Pressure/Temperature Performance

    • Achieve precise control up to [X] bar and [Y]°C, enabling supercritical fluid reactions that standard reactors cannot handle. Ideal for demanding applications like pharmaceutical synthesis*

  • 4. Versatile Scenario Adaptability

    • Designed for both laboratory-scale research and small-batch production, this reactor accommodates diverse chemical processes (e.g., synthesis, degradation) without compromising precision*

  • 5. Safety-Certified Design

    • Safety-certified construction with pressure relief valves and temperature sensors ensures compliance with industry safety protocols, reducing risks in high-stakes chemical experiments*

Product details

Compacy Lab High Pressure Reactor Chemical Autoclave for Supercritical Chemical Reaction

The Compact Lab High Pressure Reactor Chemical Autoclave is a semi-automatic tank reactor designed for supercritical chemical reactions. Built with corrosion-resistant stainless steel construction and precise digital controls, it enables safe and efficient processing under high-pressure and temperature conditions.

Technical specifications

FeatureSpecificationBenefit
Material316L Stainless Steel (outer/inner)Corrosion resistance for harsh chemicals
Voltage220V ACStandard global compatibility
Automation GradeSemi-AutomaticManual oversight with automated controls
Control PanelDigital display for pressure/temperatureReal-time monitoring for precision
Pressure Range0–100 barVersatile for supercritical applications
Temperature Range25°C–300°CBroad thermal flexibility

Customization guide

Adjustable parameters include:

  • Pressure limits (within 0–100 bar) to match reaction requirements.
  • Temperature setpoints (25°C–300°C) for precise process control.
  • Material compatibility testing for specialized chemical reactions.

Get inspired

With precise temperature control, you can achieve consistent reaction outcomes. With corrosion-resistant stainless steel, ensure durability in harsh chemical environments. With semi-automatic operation, streamline workflows while maintaining manual oversight.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Max Pressure (bar)100120 (+20%)150 (+50%)*
**Max Temperature (°C)300350 (+17%)400 (+33%)
Automation LevelSemi-AutomaticSemi-AutomaticFully Automatic
Safety FeaturesPressure reliefDual safety sensorsTriple redundancy

Supplier's note

  1. Technical Breakthroughs:

    • 316L Stainless Steel: Outperforms 304-grade steel in corrosion resistance, extending reactor lifespan in aggressive chemistries.
    • Dual Safety Sensors (Advanced/Pro): Enable real-time pressure/temperature cross-checking, reducing failure risks by 40%.
    • Triple Redundancy (Pro): Includes backup sensors and valves, meeting ISO 28132 safety standards for high-risk labs.

  2. Version Selection Guide:

    • Base Model: Ideal for academic labs or small-scale R&D with standard supercritical CO₂ applications.
    • Advanced Model: Best for industrial pilot plants needing higher temperatures (e.g., polymer synthesis at 350°C).
    • Pro Model: Required for hazardous material processing (e.g., hydrogenation under 150 bar) where triple redundancy ensures compliance with OSHA standards.

*Pro Model’s pressure capacity exceeds industry benchmarks by 50%, enabling exploration of ultra-high-pressure reaction conditions.

Frequently asked questions

  • Which high-pressure reactor model is best for supercritical chemical reactions in a compact lab setup?

  • How do I clean and maintain the stainless steel inner chamber of a lab autoclave reactor?

  • What’s the advantage of stainless steel over other materials in high-pressure reactor construction?

  • Can this semi-automatic tank reactor be customized for specific pressure or temperature ranges?

  • Is the reactor’s material FDA-approved for pharmaceutical or food-grade applications?

  • How does the 220V voltage rating impact the reactor’s performance in standard labs?

  • What safety features prevent overpressure or overheating in the reactor?

  • How does the digital control panel enhance precision in supercritical fluid reactions?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material CompositionCorrosive chemical environmentsIndustry Standard: 304 Stainless Steel (ASTM A276)
Our Base: 316 Stainless Steel (ASTM A276)
Our Advanced: 316L (Low-Carbon, ASTM A276)		▲▲▲ Enhanced corrosion resistance for harsh chemicals (e.g., acids, solvents)
Base: 30% better than 304
Advanced: 50% better than 304		Higher cost for 316L due to specialized alloying (▲▲▲)
Pressure HandlingSupercritical fluid reactionsIndustry Standard: 100 bar (ISO 285)
Our Base: 150 bar (▲▲)
Our Advanced: 200 bar (▲▲▲)		▲▲▲ Supports extreme conditions (e.g., CO₂ supercritical reactions)
Base: 50% higher than industry norm
Advanced: 100% higher than industry norm		Advanced models require reinforced structural design (▲▲▲)
Temperature ControlHigh-precision thermal reactionsIndustry Standard: ±5°C (ISO 9053)
Our Base: ±2°C (▲▲)
Our Advanced: ±0.5°C (▲▲▲)		▲▲▲ Ensures reproducibility in sensitive processes (e.g., polymer synthesis)
Base: 60% better accuracy
Advanced: 90% better accuracy		Advanced sensors increase maintenance complexity (▲▲)
Automation LevelIndustrial-scale productionIndustry Standard: Manual operation
Our Base: Semi-Automatic (pre-set parameters)
Our Advanced: Fully Automatic (PLC-controlled)		▲▲▲ Reduces human error and enables 24/7 operation
Base: 30% faster setup
Advanced: 100% hands-off operation		Advanced automation requires training (▲▲) and higher upfront cost (▲▲▲)
Safety FeaturesHazardous material processingIndustry Standard: Basic pressure relief valve
Our Base: Real-time pressure/temperature alarms (▲)
Our Advanced: Multi-layer fail-safes + remote alerts (▲▲▲)		▲▲▲ Minimizes risks in volatile environments (e.g., exothermic reactions)
Base: 20% faster alert response
Advanced: 100% remote monitoring capability		Advanced systems add complexity to installation (▲▲)
Energy EfficiencyLabs with limited power infrastructureIndustry Standard: 440V, 500W/h (IEC 60950)
Our Base: 220V, 400W/h (▲▲)
Our Advanced: 220V, 350W/h (▲▲▲)		▲▲▲ Compatible with standard lab outlets (220V) and lowers energy costs by 30%
Base: 20% more efficient than industry norm
Advanced: 30% more efficient than industry norm		Advanced models require premium insulation materials (▲)

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