ACHE & Cooling Tower Components
At SSPL, we deliver high-quality, precision-engineered components for Air-Cooled Heat Exchangers (ACHEs) and Cooling Towers — crafted to perform reliably under the most demanding environments. Whether for industrial plants, power generation, or large-scale HVAC installations, our solutions are built for durability, efficiency, and optimal thermal performance.
What We Offer
- Custom Fabricated Fins, Tubes & Bundles: Fin tubes, bundles, headers, and frames engineered to specifications to maximize heat transfer and airflow.
- Structural Framework & Support Assemblies: Heavy-duty steel structures including platforms, panels, louvers, fan stacks, and support beams built for strength and years of service.
- Corrosion-Resistant Materials & Coatings: Use of stainless steel, galvanized steel, FRP (fibre-reinforced polymer), or other alloys as required. Protective coatings for harsh climates.
- Fan & Airflow Management Components: Gearboxes, shaft supports, fan rings and other components engineered for optimal airflow efficiency and quiet operation.
- Water Distribution & Nozzles for Cooling Towers: Distribution basins, nozzles, drift eliminators and other accessories that ensure even water spread and minimal water loss.
- Inspection, Repair & Retrofit Support: Condition surveys, component replacements or upgrades, and life-extension solutions for existing ACHEs & Cooling Towers.
Why choose SSPL
- Precision & Reliability: Our fabrication is backed by strict quality control, ensuring each component meets design tolerances and thermal performance requirements.
- Material Expertise: Decades of handling both standard and specialty materials to resist corrosion, thermal fatigue, and mechanical stress.
- On-Time Delivery & Support: From prototyping to full-scale manufacturing, SSPL maintains prompt project timelines and post-installation assistance.
- Cost-Effective Solutions: Through optimized design, smart material choices, and efficient production processes, we help reduce lifecycle costs without compromising safety or function.
