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Contact Person : Du
Phone Number :  13991381852

New Energy Equipment----Successfully collaborated with the American New Energy Group to develop the first DC hydrogen cracking furnace project

  • New Energy Equipment----Successfully collaborated with the American New Energy Group to develop the first DC hydrogen cracking furnace project
  • New Energy Equipment----Successfully collaborated with the American New Energy Group to develop the first DC hydrogen cracking furnace project
Place of Origin China
Brand Name Shaanxi Chengda
Certification ISO9001
Model Number Negotiate based on equipment processing capacity
Minimum Order Quantity 1set
Price price is negotiable
Packaging Details Discuss according to the specific requirements of Party A
Delivery Time 2 months
Payment Terms L/C,D/A,T/T,Western Union,MoneyGram
Supply Ability Complete production supply chain, supply on time, and meet quality standards

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Product Details
Production 1400m³/d Gas Use New Clean Energy
Gas Characteristics Synthetic Fuel (Burning Mixture) Alternate Use Sewage (waste Water) Treatment
Brand Name Shaanxi Chengda Warranty 1year
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Product Description

DC Hydrogen Cracking Furnace 

Overview

DC hydrogen cracking furnace is a specialized thermal processing equipment integrating direct current (DC) heating technology and hydrogen atmosphere cracking , mainly used for high-purity material purification, waste resource recycling, and advanced material preparation. It utilizes DC arc/plasma heating to generate ultra-high temperature environments (1800–3000℃) and relies on hydrogen's strong reducing property and cracking effect to decompose organic/inorganic impurities, reduce metal oxides, or crack complex compounds into high-purity target products. The equipment is widely applied in fields such as rare metal extraction, semiconductor material purification, battery material recycling, and high-temperature alloy processing.

Core Working Principle

  1. DC Heating System: The furnace generates stable DC arc or plasma through graphite electrodes (cathode + anode) , realizing rapid heating of materials via direct thermal radiation and electromagnetic induction. Compared with AC heating, DC heating has stronger arc stability, uniform temperature field distribution, and lower energy consumption, which can avoid material oxidation caused by unstable arcs.
  2. Hydrogen Atmosphere Cracking Mechanism:
    • Reduction Reaction: Hydrogen (H₂) acts as a reducing agent to react with metal oxides in materials (e.g., MOₓ + xH₂ → M + xH₂O) , reducing high-valence metals to elemental form and improving product purity.
    • Cracking Reaction: Under ultra-high temperature and hydrogen atmosphere, organic impurities (e.g., oils, resins) or complex compounds (e.g., metal carbides, nitrides) are cracked into small-molecule gases (CH₄, NH₃, H₂O) , which are discharged with the tail gas to achieve impurity removal.
    • Purification Effect: Hydrogen can also eliminate gas impurities (O₂, N₂, CO) in materials by forming H₂O, NH₃, and CH₄, further improving the purity of target products (up to 99.99% or higher) .

Key Technical Parameters

Parameter Category Key Indicators Typical Range Application Notes
Heating Performance Rated Power 50–500 kW Matched with furnace volume and material heating demand

Maximum Temperature 1800–3000℃ Adjustable according to process; precise control via infrared/thermocouple

Heating Rate 10–50℃/min Rapid heating for small-batch production; slow heating for high-purity purification
Hydrogen System Hydrogen Purity ≥99.99% (high-purity H₂) Impurity-free hydrogen avoids secondary pollution of materials

Atmosphere Pressure 0.1–0.5 MPa (positive pressure) Positive pressure prevents air leakage; pressure adjustable via pressure relief valve

Hydrogen Flow Rate 5–50 L/min Matched with material quantity and cracking reaction rate
Vacuum Performance Ultimate Vacuum Degree 1×10⁻³–5×10⁻² Pa Pre-vacuum to remove air before hydrogen injection; reduces oxidation risk

Vacuum Pumping Speed 10–100 m³/h Ensures rapid vacuuming and stable vacuum environment
Structural Parameters Furnace Chamber Volume 0.01–0.5 m³ Suitable for small-to-medium batch production (0.1–50 kg/batch)

Electrode Type Graphite electrode (replaceable) High-temperature resistance, low impurity content; matching electrode diameter with power

Lining Material Zirconia, alumina, or graphite Corrosion resistance, high-temperature stability; avoids material contamination
Cooling System Cooling Method Water cooling (circulating) Cools furnace shell, electrodes, and vacuum chamber

Water Pressure/Flow Rate 0.3–0.6 MPa / 10–50 L/min Prevents equipment overheating; equipped with water shortage alarm
Safety System Safety Interlocks Vacuum leak detection, hydrogen concentration monitoring, over-temperature alarm, emergency shutdown Ensures safe operation of hydrogen atmosphere and high-temperature environment

Explosion-Proof Device Explosion-proof valve, hydrogen discharge pipeline Prevents hydrogen explosion risk; meets industrial safety standards

Core Advantages

  1. High Purity Output: Hydrogen's strong reducing property and vacuum pre-treatment effectively remove oxides, gases, and organic impurities, enabling target product purity up to 99.99%–99.999% , suitable for high-end material preparation.
  2. Efficient Heating: DC arc/plasma heating realizes rapid temperature rise (10–50℃/min) and ultra-high temperature environment (up to 3000℃) , which can handle high-melting-point materials (e.g., tungsten, molybdenum, titanium) and accelerate cracking reactions.
  3. Environmental Friendliness: The main by-products of hydrogen cracking are H₂O and small-molecule gases, which can be discharged after simple treatment (e.g., water condensation) ; no toxic waste is generated, complying with environmental protection standards.
  4. Stable and Reliable: DC heating ensures uniform temperature field and stable arc; positive pressure hydrogen atmosphere and vacuum interlock prevent air leakage, reducing material oxidation and improving product consistency.

Typical Application Scenarios

  1. Rare Metal Extraction & Purification: Reduction of rare metal oxides (e.g., WO₃, MoO₃, TiO₂) to high-purity elemental metals; purification of rare earth metals to remove impurities such as oxygen and carbon.
  2. Battery Material Recycling: Cracking of lithium-ion battery cathode materials (e.g., LiCoO₂, LiNiMnCoO₂) to recover cobalt, nickel, lithium, and other valuable metals; hydrogen reduction of metal oxides in waste batteries to improve recovery rate.
  3. Semiconductor & High-Tech Material Preparation: Purification of semiconductor materials (e.g., silicon, germanium) to remove trace impurities; preparation of high-purity metal powders (e.g., hydrogen-reduced nickel powder, cobalt powder) for electronic components.
  4. Waste Resource Recycling: Cracking of organic-inorganic composite waste (e.g., metal-plastic composites, electronic waste) to separate metals and organic matter; recycling of valuable metals in industrial waste residues.

Key Technical Challenges & Solutions

Challenge Solution
Hydrogen Leakage Risk Equip hydrogen concentration sensors (detection limit ≤1% LEL) , vacuum leak detection system, and explosion-proof valves; use sealed furnace body and high-temperature resistant gaskets.
Electrode Consumption Select high-purity graphite electrodes; optimize arc stability and current density to reduce electrode ablation; design replaceable electrode structure for easy maintenance.
Material Contamination Use high-purity lining materials (e.g., zirconia, high-purity graphite) ; pre-treat hydrogen to remove moisture and impurities; avoid direct contact between materials and contaminated components.
Energy Consumption Control Adopt energy-saving DC power supply; recover waste heat from cooling water; optimize heating curve to avoid unnecessary high-temperature holding.

Selection & Customization Suggestions

  1. Based on Material Properties: For high-melting-point metals (e.g., W, Mo) , select high-power models (≥200 kW) with maximum temperature ≥2500℃ ; for low-melting-point materials or organic cracking, choose medium-power models (50–150 kW) with temperature ≤2000℃ .
  2. According to Production Scale: Small-batch R&D (0.1–1 kg/batch) selects furnace chamber volume ≤0.05 m³ ; medium-batch production (1–50 kg/batch) chooses 0.05–0.5 m³ furnace chamber.
  3. Considering Purity Requirements: For ultra-high purity (≥99.999%) products, select models with high vacuum performance (ultimate vacuum ≤1×10⁻³ Pa) and high-purity hydrogen purification system; for general purity requirements, common vacuum and hydrogen configurations are acceptable.
  4. Matching Safety Standards: Ensure the equipment meets local hydrogen safety standards (e.g., GB 3634 for hydrogen use safety, NFPA 55 for international standards) , and is equipped with complete safety interlocks and explosion-proof devices.
If you need to customize parameters (e.g., furnace chamber volume, maximum temperature, hydrogen flow rate) for specific materials or production processes, please provide detailed requirements (e.g., material type, batch weight, target purity) , and we can provide a tailored technical solution and equipment parameter list.



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Nickel Iron Furnaces

Electric Furnaces