filler

UM UTILITY PLANT NUMBER FOUR Previous


Owner: University of Miami
Project Cost: $1,800,000
Completion: December 202

 

The project scope was to provide mechanical/electrical design services that included:

  • Demolition of two 300 ton (Chiller #1 & Chiller 2)) and replacing them with two new 600 ton chillers.
  • New primary pumps with associated electrical upgrades.
  • Additional secondary pump with piping to improve redundancy of the distribution system.
  • New central plant refrigeration monitoring system with interfaces to central plant control system.
  • Cooling tower upgrades with new a new structural support system.
  • New electrical distribution system to simplify services and other electrical upgrades as needed to support the mechanical upgrades.
  • New controls package with upgraded sequences to improve efficiency and reliability. Included integration with campus Enterprise Building Management System.
  • A new Measurement and Verification package that ensured future verification of performance of the chiller and the overall chilled water plant.
  • Standard construction administration services and submittal reviews.

Key ssues:

M&A worked with the different chiller manufacturers to ensure the new chillers would fit into the existing structure. Alternate configurations of chiller compressor units were considered and utlimately incorporated into the design. An existing AHU located in the central plant had to be relocated to the roof of the plant to accommodate the additional equipment

The project included comprehensive performance verification criteria that was integrated into the bid documents. The bids included not only first cost but also life cycle cost (20 years) that were used during the bid evaluation. The chiller manufacturer exhibiting the lowest life cycle cost were selected for the project.

Project included three bid packages to accommodate UM's need to prioritize with regard to funding and to direct purchase the large equipment.

Design included a new piping manifold and control valves at cooling towers to support flexible tower/chiller operation. This ensured redundant operation and automatic switch over of towers. It also enabled the plant control system to optimize the condenser water setpoint to achieve higher overall plant efficiency.