Geetanjali Hospital & Medical College Campus Jaipur, Rajasthan

The Geetanjali Hospital and Medical College Campus, developed by Fortune Foundation, is a large-scale healthcare and medical education infrastructure in Jaipur, Rajasthan. The campus comprises a 1200-bed multi-specialty hospital and a 150-seat medical college, spread across approximately 15,00,000 sq. ft. The facility supports continuous clinical operations, academic activities, residential utilities, and landscaped areas, all of which require highly reliable water management and HVAC systems.

Healthcare campuses operate under stringent hygiene, comfort, and reliability requirements, with highly variable demand patterns across wards, diagnostic areas, laboratories, classrooms, hostels, and utility services. To address these requirements, the campus is equipped with dedicated plumbing booster systems and centralized HVAC pumping solutions, designed for round-the-clock operation, energy efficiency, and long-term operational reliability.

These booster systems support multiple plumbing applications, including water pressure boosting, irrigation, and flushing water transfer. Hydropneumatic systems are ideal for healthcare campuses due to their ability to automatically respond to fluctuating demand while maintaining constant pressure. By operating on demand, these systems reduce energy consumption, minimize pump wear, and ensure uninterrupted water availability—critical for patient care, sanitation, and hygiene. Their compact design and automated controls also simplify maintenance and improve overall system reliability.

End suction pumps are widely used for chilled water circulation due to their compact footprint, ease of maintenance, and high hydraulic efficiency. Split case pumps are employed for condenser water applications where high flow rates and stable performance are essential. The primary variable flow configuration allows the HVAC system to modulate pump speed based on real-time cooling demand, significantly reducing energy consumption during partial load conditions.

Integration with primary variable speed control panels enables precise flow control, improved heat transfer efficiency, and reduced operating costs. This configuration ensures continuous cooling performance, protects temperature-sensitive medical equipment, and enhances occupant comfort across the campus. Compatibility with modern Building Management Systems (BMS) further allows centralized monitoring, predictive maintenance, and optimized system operation.