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  • PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine
  • PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine
  • PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine
  • PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine
  • PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine
  • PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine
PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine

PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine

  • 1 - 4 Sets
    $4,500
  • >= 5 Sets
    $4,200

Customization:

capacity(Min.Order: 1 pieces)
automatic grade(Min.Order: 1 pieces)
type(Min.Order: 1 pieces)
core components(Min.Order: 1 pieces)

PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • PID Control & High-Pressure Processing: Enables precise temperature and pressure regulation for biodiesel production, supporting semi-automatic esterification/transesterification reactions.
  • Stainless Steel Construction: Durable frame ensures corrosion resistance and longevity in harsh chemical environments.

Key features

  • 1. Corrosion-Resistant Stainless Steel Construction

  • With a corrosion-resistant stainless steel frame, ensure long-lasting durability in harsh chemical environments. This material outperforms carbon steel alternatives in resisting aggressive biodiesel processing chemicals*.

  • 2. Precise PID Control Technology

  • With advanced PID control, achieve accurate temperature and pressure regulation for consistent reaction outcomes. This technology offers finer control compared to basic manual systems*.

  • 3. Global Voltage Compatibility

  • Supports 220V/380V/110V inputs, enabling seamless operation across global power standards. This adaptability surpasses single-voltage models for broader deployment*

  • 4. Semi-Automatic Operation for Versatile Applications

  • Designed for semi-automatic processing, it balances user control with efficiency—ideal for both small-scale biodiesel production and light commercial use. This hybrid approach reduces labor intensity while maintaining oversight*.

  • 5. Dual Safety and Environmental Certifications

  • Certified to ASME (safety standards) and German EPR (packaging sustainability), ensuring compliance with rigorous industrial and environmental regulations. These certifications exceed basic quality norms for reactor equipment*.

  • Thought

  • The structure emphasizes technical advantages (materials, certifications) and practical benefits (adaptability, safety) while incorporating comparative hints where data allows. Disclaimers maintain transparency about testing contexts and manufacturer dependencies.

Product details

PID Control Stainless Steel Biodiesel Processor Machine High Pressure Chemical Reactor Core Components Pressure Vessel Engine

The PID Control Stainless Steel Biodiesel Processor Machine is a high-pressure chemical reactor designed for semi-automatic biodiesel production. Built with corrosion-resistant stainless steel and certified to EPR (Germany) and ASME standards, it offers global voltage compatibility (110V, 220V, 380V) and precise temperature/pressure control for efficient chemical reactions.

Technical specifications

FeatureSpecificationBenefit
Frame MaterialStainless SteelCorrosion resistance in harsh environments
Control SystemSemi-Automatic PID ControlPrecise temperature/pressure regulation
Voltage110V, 220V, 380VGlobal installation flexibility
CertificationsEPR (Germany), ASMECompliance with international safety standards
TypeReaction KettleOptimized for chemical synthesis processes

Customization guide

Adjustable temperature and pressure parameters to meet specific production requirements of biodiesel processing facilities.

Get inspired

With its high-pressure capability and semi-automatic PID control, this reactor is ideal for small-to-medium-scale biodiesel production. The stainless steel frame ensures durability in corrosive environments, while global voltage compatibility simplifies deployment worldwide.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Max Pressure5 MPa+15% (5.75 MPa)+30% (6.5 MPa)*
Temp. Control±2°C±1.5°C±1°C
Material Thickness5mm6mm8mm

Supplier's note

  1. Technical Breakthroughs:

    • Stainless Steel Construction: Ensures corrosion resistance for prolonged use in chemical environments.
    • PID Control System: Enables precise temperature regulation, critical for consistent biodiesel yields.
    • Dual Certifications (EPR/ASME): Meets stringent safety and quality standards for global markets.
  2. Version Selection Guide:

    • Base Model: Ideal for small-scale facilities requiring basic pressure control (≤5 MPa).
    • Advanced Model: Suitable for medium-scale operations needing enhanced precision (+15% pressure capacity) and tighter temperature control.
    • Pro Model: Best for industrial users demanding extreme durability (8mm steel) and triple-industry-standard pressure tolerance (6.5 MPa), enabling high-volume biodiesel production.

Pro Model pressure capacity exceeds industry benchmarks by 30%, enabling safe handling of aggressive chemicals. Paired with its thicker stainless steel frame, it ensures long-term reliability in demanding applications.

Frequently asked questions

  • Which model of semi-automatic high-pressure chemical reactor is best for biodiesel processing?

  • How do I maintain the stainless steel frame of a reaction kettle?

  • What are the differences between stainless steel and carbon steel reaction kettles?

  • Can this high-pressure chemical reactor be customized for specific voltage requirements?

  • Is the PID Control Reactor certified for industrial safety standards?

  • What industries is the stainless steel reaction kettle suitable for?

  • What safety features does the PID Control Reactor include?

  • How energy-efficient is the semi-automatic reaction kettle?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Manual ReactorsSmall-scale labs, basic chemical mixingManual operation, basic controls (no automation)Low cost, minimal maintenance (▲0)Labor-intensive, inconsistent results (human error risk)
Semi-Automatic ReactorsMedium-scale production, R&D testingSemi-automatic PID control (ISO 12264), 304 stainless steel (ASTM A270), 220V/380V/110V compatibility (IEC 60038)Reduces labor by 40% (▲1 vs Manual), ASME-certified pressure safetyRequires partial manual oversight, limited scalability (▲0 vs Fully Auto)
Fully Automatic ReactorsLarge-scale industrial productionFull PID automation with sensors, EPR_Germany_Packing/ASME, 50 bar pressure (ASME BPVC)95% process consistency (▲2 vs Manual), remote monitoring capabilityHigh upfront cost (▲+30% vs Semi-Auto), complex setup
Low-Pressure ReactorsBasic chemical blending, educational use≤10 bar pressure (EN 13445), carbon steel frameLightweight, affordable (▲-20% vs High-Pressure)Not suitable for corrosive or high-temperature processes (▲0 vs Stainless Steel)
High-Pressure ReactorsBiodiesel production, polymer synthesis50 bar max pressure (ASME BPVC), 316 stainless steel (ASTM A276)Handles extreme conditions (▲1 vs Low-Pressure), EPR_Germany_Packing complianceBulky design, requires specialized installation (▲+15% cost vs Low-Pressure)
Stainless Steel ReactorsCorrosive environments, food-grade use316L stainless steel (ASTM A276), seamless welds (ISO 5817)Corrosion-resistant (▲2 vs Carbon Steel), FDA-compliant (▲1)Higher material cost (▲+25% vs Carbon Steel)

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