Valve PLC Control Cabinet in Oil and Gas Pipelines HVAC System
Product Describe:
1. Water treatment plants: Controls butterfly valves, gate valves, and check valves in filtration, disinfection, and water distribution systems, ensuring precise flow regulation and automated process switching.
2. Oil and gas pipelines: Manages control valves for pressure regulation, flow metering, and emergency shutoff, enabling remote monitoring and rapid response to pipeline conditions.
3. Chemical processing facilities: Regulates valve operations in reaction vessels, material transfer lines, and waste treatment units, ensuring safe and precise control of corrosive or hazardous fluids.
4. HVAC systems in buildings: Controls damper valves and water control valves to adjust air flow, temperature, and humidity in commercial complexes, hotels, and industrial workshops.
5. Power plants (thermal, nuclear): Manages valves in steam systems, cooling water circuits, and fuel supply lines, coordinating with power generation processes for stable operation and safety protection.
6. Wastewater treatment plants: Automates valve operations in sedimentation tanks, aeration systems, and sludge treatment lines, optimizing treatment efficiency and reducing manual intervention.
Specification:
| Application Scale |
Regular Sizes (Width × Depth × Height, mm) |
| Small-scale systems (e.g., HVAC in small buildings) |
600 × 400 × 800; 800 × 500 × 1000 (compact, suitable for wall-mounted or small floor installation) |
| Medium-scale systems (e.g., water treatment plants, small chemical workshops) |
1000 × 600 × 1600; 1200 × 800 × 1800 (accommodates PLC modules, relays, and basic control components) |
| Large-scale systems (e.g., oil and gas pipelines, power plants) |
1500 × 1000 × 2000; 2000 × 1200 × 2200 (for multiple PLC units, high-voltage components, and monitoring devices) |
Custom sizes depend on:
- • Space limitations (e.g., narrow installation areas or vertical/horizontal constraints).
- • Number of valves controlled (more valves require additional I/O modules, increasing cabinet size).
- • Environmental factors (e.g., extra depth for dustproof/rainproof designs in outdoor use).
- • Integration needs (matching dimensions with existing control systems or equipment layouts).
Material:
Aluminum alloy, stainless steel, carbon steel
Suggestion:
1. Match size to installation space: Opt for compact designs for tight areas; expand for extra modules.
2. Tailor I/O capacity: Scale based on the number of valves (add modules for more control points).
3. Choose IP rating: IP65+ for outdoor/dusty environments; IP54 for indoor clean settings.
4. Ensure compatibility: Integrate with existing sensors, actuators, or SCADA systems.
