Cut Energy Costs with Self-Regulating Graphene PTC Heating for Industry
Optimize industrial processes with precise, energy-efficient, and flexible heating solutions.
Problems
Cold Weather Challenge for Industrial Equipment
Are rising energy costs squeezing your profit margins? Inefficient heating leads to wasted energy, inconsistent temperatures, and costly downtime.
solutions
Self-Regulating Graphene PTC Heating Films Features
Precise Thermal Contro
Self-regulating temperature ensures consistent heat, optimizing process efficiency.
Energy Savings
Reduces energy waste by up to 50% compared to traditional heating methods.
Flexible Integration
Adapts to complex machinery and piping, maximizing surface contact.
Applications
Self-Regulating Heating Films Industrial Energy Efficiency Applications
Chemical Processing
- Challenge: Maintaining precise temperatures in reactors and distillation columns.
- Solution: Graphene heating films provide consistent, self-regulating heat, improving reaction yields.
Food & Beverage
- Challenge: Preventing freezing or maintaining optimal temperatures in pipelines and tanks.
- Solution: Flexible heating elements ensure product consistency and reduce spoilage.
Oil & Gas
- Challenge: Maintaining flow in pipelines in cold climates and preventing wax buildup.
- Solution: Graphene heating solutions provide even heat distribution, minimizing energy use.
COMPARISON
Graphene PTC Film VS Traditional Heaters
| Feature | Our Graphene PTC Film | Ceramic PTC |
|---|---|---|
| Texture | Flexible, good conformability | Thick, difficult to fix |
| Structure | Conductive circuits in series forming single sensing strip(Low circuit complexity) | Requires independent use(Complex wiring for multi-zone detection) |
| Resistance | Wide range 48kΩ~18MΩ(Multi-voltage compatibility) | Customizable 100Ω~10kΩ (Narrower range) |
| Operating Temp | -40~150℃ | -40~150℃ |
| PTC Sensitivity | High ratio 10,000-40,000×(High sensitivity) | Max ratio 3,000×(Lower sensitivity) |
contact