UNIVERSITY OF WATERLOO MATH AND COMPUTER BUILDING MAIN

UNIVERSITY OF WATERLOO MATH AND COMPUTER BUILDING MAIN COMPUTER ROOM UPS REPLACEMENT MAIN COMPUTER ROOM AIR CONDITIONER GENERATOR

MAIN COMPUTER ROOM UPS REPLACEMENT PROJECT: REPLACE MULTIPLE UPS SYSTEMS THROUGHOUT COMPUTER ROOM WITH LARGE THREE PHASE UPS THAT PROVIDES: 30 MINUTES OF BATTERY BACK FOR ENTIRE ROOM INSTALLED WHILE EXISTING SYSTEM RUNS HAS REDUNDANT FAILSAFE FEATURES CAN EASILY BE MONITORED (Batteries) CAN GROW TO FOUR (4) TIMES THE CURRENT CAPACITY OF THE EXISTING EQUIPMENT WITH IN THE COMPUTER ROOM

COMPUTER ROOM DRAW: Based Upon Measurements Provided by University of Waterloo Personnel Statement by University Personnel that at any given time 10% of the computer room is down for upgrades and repairs.

SOME POINTS: Why Watts? I. There is a difference in watt (k. W) actual power and VA (k. VA) apparent power ratings in UPS II. Watts is the lower rating in UPS Systems. But the important one. III. University of Waterloo could not tell us if the meter measured watts, va or both. IV. Assume worst case scenario. How did you get the totals? I. 208/120 volt 3 Phase. II. Any individual phase to ground or neutral 120 VAC III. Add all three phases current draw together multiply by 120 IV. Add 10% for equipment turned off (University of Waterloo)

UPS SYSTEM RECOMMENDATION: Eaton Powerware 9390 160 KVA / 144 KW Parallel Redundant System Upgradeable to 480 KVA / 432 KW System with one (1) 160 KVA / 144 KW N+1 Redundancy

EATON POWERWARE 9390 UPS System

Powerware 9390 UPS System Setting the New Standard for Three-Phase Power Protection

Powerware 9390 System Overview ● Next-Generation, Three-Phase UPS System Modern Design Advanced performance ● ● ● Increased reliability ● ● Advanced Battery Management Remote Monitoring Better serviceability ● ● Transformerless Active Front-End Converter Double Conversion Front access Warranty/Service coverage Consistent design for entire system ● UPS modules ● Battery cabinets ● Integrated Distribution Cabinet

Key Features Power Performance Warranty and Service Battery Management Scalability Power Density Serviceability

Power Performance Input THD ● ● ● ● 9390 Galaxy PW Comet Npower Silcon Toshiba 4100 Mitsu 2033 * With optional filter Output PF <4. 5% <7. 5% 0. 9 <10%* n/a <3% <3 -6% Efficiency 94% 92 - 93% 0. 8 1. 0 0. 8 p 0. 8 90 - 95% 92 - 93% 92 - 95% 90% ? ? ?

Warranty and Service Powerware 9390 provides the best warranty/service

Scalability Available in 40, 80, 120, and 160 k. VA single power module ratings Powerware Hot Sync. TM Paralleling Tried-and-true technology ● Peer-to-peer paralleling without wires Parallel for redundancy or capacity ● Up to four (4) modules without tie cabinet ● Up to eight (8) modules maximum ● Total capacity of 1280 k. VA Easy to parallel units ● X-slot parallel card ● Firmware setting changes ● Powerware 9390 provides scalability for future growth

Power Density 35% smaller than nearest competitor Front access only Our 160 k. VA is smaller than most other 80 k. VA UPS's Back-to-wall and side-to-wall installation Powerware 9390 provides the highest power density

Power Density (cont’d) Half the weight of nearest competitor ● ● Reduced transportation and installation costs Easy to handle Our 160 k. VA is lighter than other 80 k. VA's

Powerware 9390 Specification Snapshot Power Ratings k. VA 40 80 120 160 k. W 36 72 108 144 Efficiency 94% Input Power Factor 0. 99 Input THD <4. 5% Voltage 208/208, 400/400, 480/480 (standard) 480/208, 600/600, 600/208 (optional) Battery Options Types Voltage Charging Method VRLA, AGM, Gel, Wet 384 - 480, variable Advanced Battery Management. TM

Design Characteristics 8 Lines x 40 Characters Back-lit display Multilingual Powerware logo “screensaver”

Design Characteristics Top or bottom cable entry standard Wireway top to bottom Output Power Connections Battery Cable Connections Removable Conduit Plate

Your Initial System 2 x 9390 160 KVA/ 144 KW Tie Cabinet 4 x Remote Power Panel (RPP)

Why 160 KVA when the model is available in 100, 120, and 160 KVA and is field Upgradeable? Answer: Cost vs Price. 9390 100 KVA 208/208 List Price $59, 100. 00 9390 160 KVA 208/208 List Price $69, 000. 00 Difference: $9, 900. 00 per system 9390 100 KVA Field Upgrade to 160 KVA $18, 500. 00 per system

How it Works (Simplified) UPS RPP Tie Cabinet RPP UPS RPP 160 KVA/ 144 KW Parallel Redundant System UPS Systems Share 73656 Watts. Each UPS carrying 36828 Watts. With Battery Cabinet recommended 62. 5 Minutes RPP

How it Works (Simplified) UPS RPP Tie Cabinet RPP UPS RPP 160 KVA/ 144 KW Parallel Redundant System UPS Systems Share 73656 Watts. One UPS carrying 73656 Watts. With Battery Cabinet recommended 18 Minutes RPP

How it Works (Simplified) UPS UPS Tie Cabinet RPP RPP 320 KVA/ 288 KW Parallel Redundant System UPS Systems Share 150000 Watts. Each UPS carrying 50000 Watts. With Battery Cabinet recommended 30 Minutes RPP

How it Works (Simplified) UPS UPS Tie Cabinet RPP RPP 320 KVA/ 288 KW Parallel Redundant System UPS Systems Share 150000 Watts. Each UPS carrying 75000 Watts. With Battery Cabinet recommended 17 Minutes RPP

Each Powerware 9390 UPS System Comes With: SNMP Web/Hub Adapter Environmental Monitoring Probe

SNMP WEB / HUB Card Allows: Treat UPS as a node on the Network Allow Access for E-Notify by Service Organization Allow Monitoring of UPS Systems from anywhere via your Network or via the Web (access permitted). Allows for Broadcast Messages over Network E-mail error messages (with software)

Environmental Monitoring Probe: Works with SNMP Web Card Monitors Temperature and Humidity User programmable High and Low Levels Two (2) extra relay contacts for additional signals.

Recommended Software: POWERVISION FACILITY EDITION Built In Multiples Server OS Shutdown (unlimited) Monitor Multiple Networks, Enterprise Wide, 1000 of UPS Monitor other manufacturers' UPS systems Monitore Parallel System Shutdowns Monitor other Equipment (Air Conditioners, Generators, Etc. ) Everything from a central location

Where is it installed: Main Breakers from Maintenance Room Transformers to be installed in unused Staircase – Stacked UPS Systems, Battery Cabinets, Tie Cabinets. Against Computer Room Back Wall. Distribution Panels: One in Red Room. Three Down the Center Aisle of Racks. One on each end one in the middle. Please Note: That once the initial UPS systems are installed. The existing UPS systems along back wall will be removed. Making Room for the Additional UPS and Batteries as required.

Computer Room System Dimensions: 9390 160 KVA UPS System: 35. 6” W x 31. 5” D x 73. 6” H Battery Cabinets: 43” W x 31. 5” D x 73. 6” H Parallel Tie Cabinet: 38"W x 18"D x 92"H Initial System requires 16. 26 Linear feet along back wall. Remaining two Systems require an additional 13. 1 Linear Feet Along Back wall.

Your System to Include: Two (2) 160 KVA / 144 KW 9390 UPS Systems Two (2) Battery Cabinets Parallel Tie Cabinet with Qty: Four (4) 600 Amps. 3 pole Input Breakers Qty: Eight (8) 225 Amps. 3 pole Output Breakers Four (4) Remote Power Panels with 2 x 42 Circuit Breaker Panels and 225 Main Breakers Thirty (30) 30 amp 208 Circuit Breakers for RPP Two (2)SNMP Web Cards Two (2) Environmental Monitoring Probes Power. Vision Facility Edition Software Two (2) 180 KVA 600 VAC/208 VAC Step Down Transformers Inside Delivery Electrical Installation of Equipment on 5 x 8 Standard Day 7 x 24 Start Up of UPS Local Two Year (7 x 24) On site Service Removal of old electrical wiring after installation Infrastructure for a Total of Four 160 KVA / 144 KW 9390 systems in a Parallel Redundant configuration N+1 Additional Floor Support where required for UPS and Battery System.

Budgetary Price based upon above. $406, 689. 00 (Taxes Extra)

What can Change? Most Economical Solution For example Rough Estimate of a 600/600 System would be $526, 844. 00. and increase Linear feet for base system to 30. 05. Can adjust quantities of Distribution Cabinets (RPP) Can limit growth to three UPS systems which will reduce cost of Tie Cabinet. BOTTOM LINE: Things can be changed when you come to a final decision. Cost savings can be found.

MAIN COMPUTER ROOM AIR CONDITIONER PROJECT: Replace chillers with air conditioning unit. possibly leave chillers in room for emergency back up of air conditioner. Concern is temperature not humidity with new equipment.

CURRENT LOAD: 73656 WATTS ADD 10% FOR UPS: 7366 WATTS TOTAL CURRENT LOAD: 81022 CONVERT TO BTU'S : 276, 447, 064 AIR CONDITIONER TONNE: 21265 (30 TONNE)

FUTURE LOAD: 294, 624 WATTS ADD 10% FOR UPS: 29463 WATTS TOTAL CURRENT LOAD: 324087 WATTS CONVERT TO BTU'S : 1, 105, 784, 844 AIR CONDITIONER TONNE: 85061 (90 - 100 TONNE)

Concerns: Too much growth in future forecast Sizing unit for potential future load increases Air Conditioner dramatically reducing efficiency with current load and increasing operating expenses.

Recommending Solutions from Carrier and Rheem Economical and Well Built units Roof Top and In Room Systems available Is possible to develop an in room modular system that will grow with you as required. Regardless of In Room or Roof Top System you should factor in approximately $3, 500 per Tonne. 30 Tonne System: $105, 000. 00 (Electrical and Mechanical) 100 Tonne System: $350, 000. 00 (Electrical and Mechanical)

GENERATOR PROJECT: Required: A 1000 KW Natural Gas Generator to be installed in Maintenance room of Math and Computer Building.

Concerns: Indoor installation will involve a lot of mechanical work Installation costs for this option will be very high compared to an outdoor alternative. Generator must be taken apart and reassembled to fit into the room. Pricing Shown is for Units Only. Does not include Installation, Permits, any required engineering. Count on installation costs of 40% minimum for inside installation

Inside Room 40' x 26. 6' at widest point

Option # 1: Given for Size Comparison Baldar 875 KW 16. 25' L x 8' W $411, 765. 00 + Install

Option # 1: Given for Size Comparison Baldar 880 KW 16. 25' L x 8' W $411, 765. 00 + Install This product could also be used for a prime power/load curtailment application if U of W works something out with Waterloo North Hydro.

Option # 2: Sim. Power 1000 KW $764, 705. 00 + Install Specification under revision

Option # 3: Advantages to a Parallel System. Generac 1000 KW Parallel Redundant 36' X 14' Total Space $447, 059. 00 + Install p System Outdoors with Weather Proof and Sound Proof Enclosures. $588, 236. 00 plus considerable less installation Expense.

Option # 4: Advantages to a Parallel System. Generac 1125 KW Parallel Redundant Bi-Fuel (Diesel and Natural Gas System). 23. 4' X 14' Total Space $411, 765. 00 + Install System Outdoors with Weather Proof and Sound Proof Enclosures. $529412. 00 plus considerable less installation Expense. Brochures on CD ROM

What Are the Next Steps? Determine what is reasonable for Computer Room. Explore Modular air Conditioning system. More in Depth presentations on individual systems. Check on City Bylaws and codes for Generators. Create a Specification. We would be happy to arrange more in-depth presentations. Thank You.