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High Efficiency Energy Saving Stainless Steel Mesh Belt Dryer for Industrial Food Dehydration
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High Efficiency Energy Saving Stainless Steel Mesh Belt Dryer for Industrial Food Dehydration
| MOQ: | 1 |
| Cena: | $36020/sets |
| standardowe opakowanie: | Drewniane skrzynie - pojemniki |
| Okres dostawy: | 10-15 dni roboczych |
| metoda płatności: | L/C, D/A, D/P, T/T, Western Union |
| Pojemność dostaw: | 1Sets/15 |
Szczegółowe informacje
Miejsce pochodzenia
Henan, Chiny
Nazwa handlowa
SUNO
Orzecznictwo
IOS9001
Numer modelu
DY-4200
Funkcjonować:
Odwadniacz warzyw i owoców
Zapewniona obsługa posprzedażna:
1 rok gwarancji
Stosowanie:
Zmniejsz wilgotność materiału
Słowa kluczowe:
Suszarka taśmowa z siatki owocowo-warzywnej
Źródło ogrzewania:
Energia elektryczna Parowa Olej Gaz Drewno opałowe Węgiel Biomasa Pelety
Typ marketingowy:
Gorący produkt 2026
Tworzywo:
Stal węglowa/SS304/SS316L
Funkcja:
Wysoka wydajność tania
Podkreślić:
High Efficiency Mesh Belt Dryer
,Energy Saving Conveyor Mesh Belt Dryer
,Stainless Steel Industrial Tunnel Dehydrator
Opis produktu
Industrial Tunnel Dehydrator Belt Dryer
High-performance mesh belt dryer designed for industrial food processing including bananas, blackberries, cherries, coconuts, and lychees.
Technical Specifications
| Voltage | 380 V, 480 V |
| Power | 15-65 kW |
| Weight | 3000 kg |
| Warranty | 1 Year |
| Operating System Language | English |
| Material Options | Carbon Steel, SS304, SS316L, SUS304, SUS304L, SUS316, SUS316L |
Key Features
- Fully automatic operation
- Multifunctional design
- High safety level certification
- Energy efficient and eco-friendly
- Long service life with high productivity
- Easy to operate and maintain
Applications
Chemicals Processing, Food Processing, Plastics Processing, and other industrial drying applications
Core Components
Bearing, Pump, Gear, Motor, PLC, Gearbox, Engine, Pressure Vessel
Heat Source Options for Belt Dryers
Steam Heating
Principle: Uses steam to heat air or directly heat material through heat exchangers or jackets.
Advantages: High thermal efficiency, easy temperature control, uniform heat distribution, suitable for heat-sensitive materials.
Disadvantages: Requires steam boiler system, higher investment costs, complex installation and maintenance.
Applications: Food, chemicals, pharmaceuticals, and other heat-sensitive products.
Hot Air Heating
Principle: Burns fuels or uses electrical heaters to warm air blown into dryer.
Advantages: Flexible heat sources, fast temperature adjustment, direct humidity and airflow control.
Disadvantages: Uneven air temperature, higher operational costs.
Applications: Grains, chemicals, powders, large-scale drying.
Electric Heating
Principle: Uses electric heating elements to heat air or material directly.
Advantages: Compact design, precise temperature control, quick startup, clean operation.
Disadvantages: High energy consumption, best for small to medium-scale drying.
Applications: Electronics, food, pharmaceuticals, small batch drying.
Direct Combustion
Principle: Directly burns fuel to heat air.
Advantages: Low initial investment, flexible fuel options for large batches.
Disadvantages: Less precise temperature control, produces exhaust gases requiring treatment.
Applications: Large-scale drying of wood chips, granules, or minerals.
Heat Pump Heating
Principle: Uses heat pump technology to extract and raise low-grade heat temperature.
Advantages: Energy-efficient (30-60% savings), stable temperature control, environmentally friendly.
Disadvantages: High initial investment, multiple units needed for larger capacity.
Applications: Energy-sensitive or eco-friendly drying of food, herbs, and sensitive materials.
Heat Source Comparison
| Heat Source | Efficiency | Temperature Control | Environmental Impact | Scale of Use | Investment | Operational Complexity |
|---|---|---|---|---|---|---|
| Steam Heating | High | High | Medium | Medium-Large | High | Medium |
| Hot Air Heating | Medium | Medium | Medium | Medium-Large | Medium | Medium |
| Electric Heating | High | High | High | Small-Medium | Medium-High | Low |
| Direct Combustion | Medium | Medium-Low | Low | Large | Low | Medium |
| Heat Pump Heating | High | High | High | Small-Medium | High | Medium |
Key Selection Guidelines
- Steam & Hot Air: Best for large-scale drying with good temperature control and heat uniformity
- Electric & Heat Pump: Precise control, eco-friendly, suitable for sensitive or small-batch materials
- Direct Combustion: Low cost for large-scale operations but less precise control
Safety Precautions by Heat Source
Steam Heating Safety
- Monitor steam pressure to prevent exceeding rated values
- Regularly inspect pipes, valves, and joints for leaks
- Install temperature and pressure gauges for proper control
- Ensure proper condensation drainage to avoid water hammer
- Operators must wear heat-resistant protective equipment
Hot Air Heating Safety
- Ensure secure fuel storage and supply system sealing
- Monitor proper airflow and exhaust ventilation
- Control combustion temperatures and exhaust gases
- Install fire extinguishers and automatic shut-off systems
- Regularly clean combustion chambers and ducts
Electric Heating Safety
- Install overload protection devices (fuses, circuit breakers)
- Regularly check electrical wire insulation
- Ensure proper ventilation for electrical components
- Verify proper grounding of all electrical components
- Keep combustible materials away from heating elements
Direct Combustion Safety
- Maintain well-ventilated fuel storage areas away from heat
- Monitor flame for irregularities indicating combustion problems
- Install carbon monoxide detectors with proper ventilation
- Ensure proper exhaust gas venting outside facility
- Provide quick fuel supply shutoff for emergencies
Heat Pump Heating Safety
- Properly handle and store refrigerants to avoid leaks
- Regularly inspect electrical wiring and connections
- Install pressure relief valves for refrigerant systems
- Perform regular maintenance checks and filter cleaning
- Ensure proper condensate water drainage
General Safety Measures
- Comprehensive operator training on specific safety protocols
- Use appropriate personal protective equipment (gloves, goggles, flame-resistant clothing)
- Perform routine system inspections and maintenance
- Establish and practice emergency shutdown procedures
- Ensure proper workspace ventilation for all heat sources
Conclusion: Proper handling of heat sources in belt dryer systems is essential for safety and accident prevention. Regular maintenance, monitoring, and operator awareness are key to minimizing risks.
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