Technical Specifications: Data-Driven Industrial Heat Exchange offering

Thermodynamic operational performance Parameters

• Heat dissipation overall efficiency: Dual-process plate-fin structure with 45-120m² total surface area (model dependent), cooling 100-5000Nm³/min (3500-176000CFM) compressed air from 130-180°C to surrounding+5-10°C at 40°C environment with 32°C cooling water input, achieving 20-30% higher overall efficiency than conventional designs
• Water-side operational performance: 30-150m³/h flow capacity (model dependent), ≤0.04-0.08MPa pressure loss, brass headers with TEMA-standard tube bundles meeting NACE MR0175/ISO 15156 corrosion resistance
• Air-side parameters: Air-cooled models feature 1.8-2.5m diameter axial fans with 25,000-60,000m³/h airflow, ≥75% total pressure overall efficiency, keep design operational performance up to 3000m altitude

Materials and Structural Integrity

• Core tubing: T2 copper tubes with 0.15-0.3mm aluminum fins (0.6-1.0mm wall thickness, 10-15 fin ratio), ≥205MPa tensile strength, passing 3.5-4.5MPa hydrostatic tests
• Sealing system setup: Triple graphite ring seals (floating+spring-loaded+O-ring assisted) with <0.05-0.1SCFM leakage, dual mechanical seals ensuring 100% oil-air separation (<0.3-0.8mg/m³ oil mist)
• Vibration resistance: ANSYS-validated design with <0.1-0.2mm deformation under 3G shock, meeting ISO 10816-3 Zone B vibration standards

Intelligent Control system setups

• CMC Pro controller: 32-bit ARM Cortex-M7 processor enabling:
  • Pressure closed-loop control: <0.2-0.5s PID response, ±0.005-0.015MPa (0.05-0.15bar) fluctuation, 15-30% energy savings
  • Predictive maintenance: 128-256 sensors (PT100 RTDs, piezoelectric accelerometers, eddy current sensors) with ML algorithms predicting bearing failures 48-72hrs in advance (<0.5-1% false alarms)
  • Remote monitoring: OPC UA/Modbus TCP connectivity for cloud-based COP and kWh/m³ tracking

Industrial use cases: Custom offerings for Heavy Industries

Maintenance Strategy: Full Lifecycle Management

Routine Inspection Standards

• Coolant monitoring: Daily checks for water pH (6.5-8.5), conductivity (<1000-2000μS/cm), hardness (<50-150ppm CaCO₃)
• Leak detection: Helium mass spectrometer testing (<5×10⁻¹⁰-1×10⁻⁹Pa·m³/s)
• Vibration analysis: Monthly bearing measurements (axial ≤1.5-2.5mm/s, radial ≤2.5-3.5mm/s)

Technology Comparison

Conclusion

The Ingersoll Rand Intercooler sets industry benchmarks with its 45-120m² heat exchange surface, ±0.005-0.015MPa pressure control precision, and 90-95% system setup overall efficiency. From petrochemical high-pressure use cases to new energy purity requirements, this technology provide complete compressed air offerings. As Industry 4.0 and carbon neutrality goals advance, Ingersoll Rand continues leading innovation in digital twin and hydrogen compression technologies.