New Parkland Hospital

Central Utility Plant (CUP)

Agenda

Introduction

Program

Design Challenges

Reliability Measures

Sustainability

Future Flexibility

Current Status

Introduction

A Community in Need: • Original Parkland built in 1954

• Region population expected to

double by 2025

• Original Parkland designed to serve

half the current patient population

The Solution: • $1.27 Billion new campus program

• Acute Care Hospital (2,500,000 SF)

• Level 1 Trauma Center

• Women & Infants Hospital

The Solution’s Need: • Reliable Capacity

• Resilient Utility Systems

• Island Operation

• Centralization

• Flexible Growth

• Sustainable Operations

• LEED© Silver Campus

New Parkland Hospital

Central Utility Plant

Programming

Programming Phase: • Coordination with Hospital team

• Loads (current / future)

• System temps / pressures

• Reset limits

• LCC Analysis of ECM opportunities

• VFD Chillers

• Heat Pump Chiller

Loads: • Chilled Water: 11,000 tons

• Heating: Water: 73,600 MBH

• Process Steam: 75,000 lbs/hr

• Fire Water: 2,500 gpm

• Domestic Water: 480 gpm

• Softened Water 420 gpm

• Electrical:

• 24 MW normal power (utility)

• 17.5 MW critical power (gens)

• Level 1 Trauma Center

• 10 second emergency power

• Risk Mitigation Planning

• 36 hours of island mode

• Critical Power

• Cooling / Heating

• Process Steam

• Water

• Coordination • Largest Healthcare Project in the

Nation

• Team of Teams

• Dual Utility Corridors

• Schedule • Utilities for dry-in

• Commissioning with no load

• Future Planning

• Load growth

• Plant accessibility

• Technology shifts

New Parkland Hospital

Central Utility Plant

Design Challenges

Incoming Utilities • Redundant pairs of 13.2 kV express

feeders from separate substations

• Dual incoming water and fire lines

• Direct tie to gas main with fuel backup

New Parkland Hospital

Central Utility Plant

Reliability Measures

Production Systems • N+1 across major equipment & pumps

• Diversified Power/Control Architecture

• UPS power on control system

• Dual Fuel Capability

• 17.5 MW backup generation

• Onsite storage (36 hours)

• 850,000 gal water

• 40,000 gal fuel

New Parkland Hospital

Central Utility Plant

Reliability Measures

Outgoing Utilities • Redundant (looped) distribution systems

• Early discussions for tunnels

• Budget limited

• As-built Utility Location

• Emergency Thermal Connections

New Parkland Hospital

Central Utility Plant

Reliability Measures

• Variable Speed Chillers / Pumps

• Optimization Control System

• Boiler Stack Economizers

• Low NOx Burners

• Heat Pump Chiller

New Parkland Hospital

Central Utility Plant

Sustainability

• Capacity Expansion Bays • Chiller

• Cooling Tower

• Boiler

• Pumps

• Generator

• Future Technology

• Additional HPC or other?

• 100 Year Building Design • System renewal

• Equipment Access • Monorails

• O/H doors

• Drive-in aisle

• Elevator to roof

• Maintenance Clearances

New Parkland Hospital

Central Utility Plant

Future Flexibility

• Elevated Control Level

• Views into chiller / boiler hall

• Access to boiler mezzanine

• Conference Area with HMI

• Chemical Lab Area

• Air / Water Service Connections

• Large yard for deliveries / functions

• Mechanically tempered

• WiFi access throughout

New Parkland Hospital

Central Utility Plant

Plant Amenities

• Serving Hospital Construction

• Hospital opens in August 2014

• Open to public in early 2015

New Parkland Hospital

Central Utility Plant

Current Status

Questions?

Jeff Easton, P.E.

Project Manager

OnSite Energy & Power

Fort Worth, Texas

jaeaston@burnsmcd.com 817.840.1244