Project details
Bharati Vidyapeeth Hospital- Pune
I also led the design and implementation of the HVAC system for Bharatiya Vidyapeeth Hospital in Pune. This project involved the installation of a large-scale, water-cooled chiller plant with three 300 TR units on the terrace, a challenging task requiring precise planning and execution.
The goal was to provide efficient, reliable cooling for the hospital’s extensive medical facilities, ensuring patient comfort and optimal equipment performance. Given the critical nature of healthcare environments, my work focused on delivering systems that balance energy efficiency, reliability, and ease of maintenance.
Comprehensive HVAC and Chiller Plant Design
Designing the HVAC system for Bharatiya Vidyapeeth Hospital required a deep understanding of the complex requirements of healthcare facilities. I implemented a water-cooled chiller plant consisting of three 300 TR units, strategically placed on the terrace to optimize space and reduce noise within the hospital.
This installation involved careful structural assessment to ensure the roof could support the significant weight of the chillers and associated equipment. I conducted precise cooling load calculations to match the hospital's diverse climate control needs, from patient rooms to operating theaters, ensuring consistent temperatures and high air quality. Additionally, the system was designed for redundancy, ensuring continuous operation even if one chiller unit required maintenance, a critical feature for a 24/7 medical facility.
Comprehensive HVAC and Chiller Plant Design
Designing the HVAC system for Bharatiya Vidyapeeth Hospital required a deep understanding of the complex requirements of healthcare facilities. I implemented a water-cooled chiller plant consisting of three 300 TR units, strategically placed on the terrace to optimize space and reduce noise within the hospital.
This installation involved careful structural assessment to ensure the roof could support the significant weight of the chillers and associated equipment. I conducted precise cooling load calculations to match the hospital's diverse climate control needs, from patient rooms to operating theaters, ensuring consistent temperatures and high air quality. Additionally, the system was designed for redundancy, ensuring continuous operation even if one chiller unit required maintenance, a critical feature for a 24/7 medical facility.
Comprehensive HVAC and Chiller Plant Design
Designing the HVAC system for Bharatiya Vidyapeeth Hospital required a deep understanding of the complex requirements of healthcare facilities. I implemented a water-cooled chiller plant consisting of three 300 TR units, strategically placed on the terrace to optimize space and reduce noise within the hospital.
This installation involved careful structural assessment to ensure the roof could support the significant weight of the chillers and associated equipment. I conducted precise cooling load calculations to match the hospital's diverse climate control needs, from patient rooms to operating theaters, ensuring consistent temperatures and high air quality. Additionally, the system was designed for redundancy, ensuring continuous operation even if one chiller unit required maintenance, a critical feature for a 24/7 medical facility.
In addition to the chiller plant, I managed the design of the water distribution system, critical for maintaining the efficiency of the HVAC system. This included designing a robust piping network that minimized pressure losses and maximized water flow efficiency to the chillers, reducing energy consumption.
I also coordinated closely with the electrical team to ensure the power supply could handle the significant electrical load of the chiller units, including the integration of power backup systems to prevent downtime during outages. By carefully balancing mechanical and electrical systems, I helped create a reliable, energy-efficient cooling infrastructure that supports the critical operations of Bharatiya Vidyapeeth Hospital.
In addition to the chiller plant, I managed the design of the water distribution system, critical for maintaining the efficiency of the HVAC system. This included designing a robust piping network that minimized pressure losses and maximized water flow efficiency to the chillers, reducing energy consumption.
I also coordinated closely with the electrical team to ensure the power supply could handle the significant electrical load of the chiller units, including the integration of power backup systems to prevent downtime during outages. By carefully balancing mechanical and electrical systems, I helped create a reliable, energy-efficient cooling infrastructure that supports the critical operations of Bharatiya Vidyapeeth Hospital.
In addition to the chiller plant, I managed the design of the water distribution system, critical for maintaining the efficiency of the HVAC system. This included designing a robust piping network that minimized pressure losses and maximized water flow efficiency to the chillers, reducing energy consumption.
I also coordinated closely with the electrical team to ensure the power supply could handle the significant electrical load of the chiller units, including the integration of power backup systems to prevent downtime during outages. By carefully balancing mechanical and electrical systems, I helped create a reliable, energy-efficient cooling infrastructure that supports the critical operations of Bharatiya Vidyapeeth Hospital.