How to upgrade an existing Data Center UPS System with zero to little interruption. Marc Basche, our Director of Critical Infrastructure Division, walks through the challenges and options for a Data Center upgrade utilizing a temporary trailerized UPS system rental.
A company specialized in uninterruptible power supply systems developed and manufactured in 2006 a system comprising a 400kVA UPS unit.
The system was installed in a production facility manufacturing food packaging equipment and foil, located in northern Poland.
Frequent voltage dips and fluctuations were severely impairing the production process, causing downtimes of several-hour duration, which generated substantial losses. Restarting the production caused another losses resulting from the process specifi city.
Typically about 200 kg of material was lost until final product was compliant with standards.
Discover how the design engineers managed to find a solution for this process production line !
POWER SYSTEM PROTECTION
Protection Devices and the Lightning,. protection,
Lightning protection, Introduction
Air Break Switches
Disconnect switches
Grounding switches
Current limiting reactors
Grounding transformers
Co-ordination of protective devices
Grounding of electrical installations
Electric shock
Lightning protection
Lightning Arrestor
Safe Operation and Maintenance of Circuit Breakers and SwitchgearLiving Online
Switchgear plays an important role in electricity distribution and its performance significantly affects the overall performance of the system. Failure to efficiently disconnect faults elsewhere in the network or failure in switchgear itself is costly, resulting in additional loss of supply, damage to equipment and possibly fatal injury to personnel. It is therefore critically important that switchgear is operated and maintained correctly, within an overall asset management regime that is both economic and effective in securing a high level of system reliability.
This comprehensive workshop focuses on medium voltage switchgear, which comprises by far the bulk of switchgear on most electricity distribution systems. The emphasis is primarily on oil, air blast, SF6 and vacuum circuit breakers, but other forms of MV switchgear, for example ring main units and auto-reclosers will also be described.
MORE INFORMATION: http://www.idc-online.com/content/safe-operation-and-maintenance-circuit-breakers-and-switchgear-3
For many years, western companies looking for new users and new revenues have been attracted to the large populations and higher growth of emerging markets like India and China. Digital startups like Spotify and Net-A-Porter are the most recent arrivals on new shores. But product managers often find that importing their offerings as-is leads to rejection by emerging market consumers, and find that their attempts to make new products are not taken up by local consumers. How can we make products and services that are appealing to these new user groups?
In this talk I take a deep-dive into developing customised products for emerging market users, and reflect on the unique challenges that westerners face when we try to understand and design in this domain. When westerners design for emerging market users, we can be blind to what our users really want and instead offer what we want them to have; we can assume they live in cultural isolation and that they need help understanding complicated technology. I challenge these myths and illustrate alternative design approaches looking at successful products like the Tata Nano.
And all this through a talk that covers Darwin, Psy, Bollywood, Adaptive Path, the British Empire and the cost of a data connection in Bangalore costs. Researchers and designers will walk away with challenged and empowered to think and create differently for emerging market users as well as users at home.
A company specialized in uninterruptible power supply systems developed and manufactured in 2006 a system comprising a 400kVA UPS unit.
The system was installed in a production facility manufacturing food packaging equipment and foil, located in northern Poland.
Frequent voltage dips and fluctuations were severely impairing the production process, causing downtimes of several-hour duration, which generated substantial losses. Restarting the production caused another losses resulting from the process specifi city.
Typically about 200 kg of material was lost until final product was compliant with standards.
Discover how the design engineers managed to find a solution for this process production line !
POWER SYSTEM PROTECTION
Protection Devices and the Lightning,. protection,
Lightning protection, Introduction
Air Break Switches
Disconnect switches
Grounding switches
Current limiting reactors
Grounding transformers
Co-ordination of protective devices
Grounding of electrical installations
Electric shock
Lightning protection
Lightning Arrestor
Safe Operation and Maintenance of Circuit Breakers and SwitchgearLiving Online
Switchgear plays an important role in electricity distribution and its performance significantly affects the overall performance of the system. Failure to efficiently disconnect faults elsewhere in the network or failure in switchgear itself is costly, resulting in additional loss of supply, damage to equipment and possibly fatal injury to personnel. It is therefore critically important that switchgear is operated and maintained correctly, within an overall asset management regime that is both economic and effective in securing a high level of system reliability.
This comprehensive workshop focuses on medium voltage switchgear, which comprises by far the bulk of switchgear on most electricity distribution systems. The emphasis is primarily on oil, air blast, SF6 and vacuum circuit breakers, but other forms of MV switchgear, for example ring main units and auto-reclosers will also be described.
MORE INFORMATION: http://www.idc-online.com/content/safe-operation-and-maintenance-circuit-breakers-and-switchgear-3
For many years, western companies looking for new users and new revenues have been attracted to the large populations and higher growth of emerging markets like India and China. Digital startups like Spotify and Net-A-Porter are the most recent arrivals on new shores. But product managers often find that importing their offerings as-is leads to rejection by emerging market consumers, and find that their attempts to make new products are not taken up by local consumers. How can we make products and services that are appealing to these new user groups?
In this talk I take a deep-dive into developing customised products for emerging market users, and reflect on the unique challenges that westerners face when we try to understand and design in this domain. When westerners design for emerging market users, we can be blind to what our users really want and instead offer what we want them to have; we can assume they live in cultural isolation and that they need help understanding complicated technology. I challenge these myths and illustrate alternative design approaches looking at successful products like the Tata Nano.
And all this through a talk that covers Darwin, Psy, Bollywood, Adaptive Path, the British Empire and the cost of a data connection in Bangalore costs. Researchers and designers will walk away with challenged and empowered to think and create differently for emerging market users as well as users at home.
Should Colocation Data Centers Fear Consolidation? (SlideShare)SP Home Run Inc.
http://DataCenterLeadGen.com
Should Colocation Data Centers Fear Consolidation? (SlideShare).
Is consolidation a question mark hanging over the future of your colocation data center? Find out why this trend could be in fact good for you too.
Copyright (C) SP Home Run Inc. All worldwide rights reserved.
Can Data Center Consultants Build Enterprise Value? (SlideShare)SP Home Run Inc.
http://DataCenterLeadGen.com Can Data Center Consultants Build Enterprise Value? (SlideShare). What do data center consultants do to enhance enterprise value? What would you get when you engage one? Find out in this post. Copyright (C) SP Home Run Inc. All worldwide rights reserved.
Comparing Software Defined Data Centers vs. Traditional Data Centers (SlideSh...SP Home Run Inc.
http://DataCenterLeadGen.com
Comparing Software Defined Data Centers vs. Traditional Data Centers (SlideShare).
How does a Software-Defined Data Center compare to a traditional data center? Read this post for an overview of the pros and cons.
Copyright (C) SP Home Run Inc. All worldwide rights reserved.
Which New Jersey Data Centers Embrace Managed Services? (SlideShare)SP Home Run Inc.
http://DataCenterLeadGen.com
Which New Jersey Data Centers Embrace Managed Services? (SlideShare).
Why are managed services being offered at New Jersey data centers? Who is embracing this phenomenon? Find out here. Copyright (C) SP Home Run Inc. All worldwide rights reserved.
Smooth the intermittency of renewable energies, stabilize the transmission and distribution systems, or optimize your energy production by integrating an energy storage system into your commercial or PV power power installation.
Whatever the application, wherever on the globe, Schneider Electric is there to support your energy storage needs.
An Introduction to the Power Module Manufacturers XY Power-A Professional EV ...Sam Geoff
This is a brief company introduction about XY Power, which is a professional EV charging solution provider and manufacturer from the electric&electronic technology center city-Xi'An, with over 24 years industrial experience accumulation in power conversion.
Focusing on the EV charging solutions, supply power modules, AC chargers and DC charging system...
For more details at sam.xy@foxmail.com
XYPOWER offers safe and reliable AC charging ODM/OEM services, with a rich and fashionable appearance, simple customization process, competitive prices and worry-free after-sales service. This is an ideal choice for customers seeking quality in all aspects.
Effective data center design doesn't have to be complicated. Learn how simple topology solutions and proven, cost-effective technologies can help simplify operations and achieve the business and performance objectives of your data center.
Schneider Electric Services_Modernization and Upgrade Solutions.pptxSchneider Electric
When considering whether to replace or upgrade existing switch gear, there are a number of factors to consider.
• Operating environment • Availability of spare parts • Impact of downtime • Cost of ongoing maintenance • Need to increase fault or continuous current rating • Desire to upgrade to current technology
Magellan Power - High Reliability Australian Technology Innovative, Customise...Magellan Power
We have been supplying highly reliable DC & AC power systems and associated equipment since 1991. Our products can be found supporting critical infrastructure in Hospitals, Substations, Oil & Gas projects, Airports, Mining projects, Stadiums, Utilities & Defence around Australia and overseas
More Electric:
Our world is becoming More Electric. Almost everything we interact with today is either already electric or becoming electric. Think about it. From the time you start your day in the morning to the time you finish your day – your home, your car, your work, your devices, your entertainment – almost everything is electric. Imagine the energy needed to power this. Electricity consumption will increase by 80% in next 25 years
More Connected: Our lives are also becoming more connected. The Internet has already transformed the way we live, work and play. Now the Connected Things is going to take this to a brand new level. 50 billion things connected in the next 5 years.
More Distributed: With such a widespread electrification and connectivity, energy models need rethinking as well. Which is why the generation of power needs to be closer to users. Distributed Energy is rapidly evolving globally. This is positive energy – renewable. In 2014 , Renewables overtook fossil fuels in investment value, with $295bn invested in renewables compared to $289bn invested in fossil fuels. And it is getting cheaper to do this.
More Efficient: When our world is more electric, more connected and more distributed, new opportunities emerge and allows us to tap into even more efficiency – in industrial processes, in the energy value chain, in buildings, in transportation, in the global supply chain and even in the comfort and peace-of-mind of our homes.
Global Power Supply (GPS) is a full service provider of new and used power systems including used industrial diesel generators, natural gas generators, custom genset enclosures, UPS power systems, automatic transfer switches (ATS), CRAC/CRAH equipment, and electrical switchgear.
solar inverter, solar lantern, solar light, hybrid inverter, off grid, on grid, net metering, solar refrigerator, solar fridge,, solar pump, solar panel, solar roof top, solar power, solar energy, solar solutions.
Open Compute has had a revolutionary impact on data center design ,offering many simplicity and cost saving benefits. To become more mainstream, we believe critical questions need to be answered about the implications of OCP on the upstream power infrastructure. Can data centers still achieve Tier 3 redundancy? How do I support traditional and OCP loads in the same data center? This presentation will address these and other questions, and propose a series of simplified architectures to support OCP. We will discuss redundancy, availability, and flexibility implications, as well as present a cost analysis. Schneider Electric embraces the spirit of OCP by openly sharing this analysis and making these simplified reference designs freely available
Versatile control of unidirectional ac–dc boost converters for power quality ...IISTech2015
Versatile control of unidirectional ac–dc boost converters for power quality mitigation,2015 Power Electronics Projects Training
Contact: IIS TECHNOLOGIES
ph:9952077540,landline:044 42637391
mail:info@iistechnologies.in
www.iistechnologies.in
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
2. GPS is a leading provider
of high quality power systems
Global Power Supply
3. Expansion or Upgrade
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Problems or challenges faced today with
upgrading or expanding an existing data
center and accomplishing this with zero to
little interruption to services and
maintaining business continuity.
Drivers
✦ Efficiency
Newer equipment provides increased efficiency
lowering cost of operations
✦ Reliability
Legacy or “end-of-life” equipment no longer is
serviceable or has spare parts
✦ Increased Capacity
Challenges
✦ N or N+1 Design
Data centers built in the late 90’s to early 2000
using Tier 2 design
✦ Physical Space Constraints
No room to install new until old is removedSelf-Contained 1000kVA UPS System
4. History of Data Center Design
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
When our centers were originally built it is often the
case the space allowed for electrical and cooling was
minimized to save money and to allocate space for the
revenue side of the equation, i.e., “white space”.
When we look to expand or upgrade we find that we
lack the needed space. Often it is necessary to remove
the old before installing the new.
✦ 80’s
Data centers were designed for 50W / Sq. Ft.
✦ 90’s
Design was increased to 90W / Sq. Ft.
✦ 2000’s
Design is 150W-200W / Sq. Ft.
✦ Where are we today?
Typical situation today with existing infrastructure.
✦ Equipment is obsolete and inefficient
✦ New equipment represents an opportunity
to become more efficient and bring our
operating costs down
✦ We lack the capacity necessary in either
power or cooling to meet todays and
tomorrows needs
✦ We are faced with a demanding era with
regard to reliability and in many cases N or
N+1 is not enough
5. ✦ Build a new data center
✦ Cost prohibitive
✦ Time frame typically 18 months
✦ Remodel or Expand
✦ Lower cost than new
✦ Shorter timelines
✦ Challenge of little or no interruption
✦ Externalize Modular Solutions
✦ Short speed of deployment
✦ Controlled costs
✦ Revenue generating “white” space
Identify Your Options
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
6. Critical Infrastructure Upgrade
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Processes associated with: Replace existing UPS System
Existing UPS Systems to be replaced Site completed with new UPS Systems
✦ Three phases for a successful project
✦ Discovery
✦ Planning
✦ Execution
10. Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
UPS Replacement N Design
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Project Description: Replace existing UPS System
Utility
Electrical Distribution
✦ Identify is the utility adequate for the expansion or upgrade
✦ Identify is the generator adequate
✦ Identify main distribution switchgear capabilities and breaker
configuration
✦ Identify and take reading of existing load to determine proper
size of temp UPS
Critical
Loads
11. Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
UPS Replacement N Design
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Project Description: Replace existing UPS System
Utility
Electrical Distribution
✦ Identify is the utility adequate for the expansion or upgrade
✦ Identify is the generator adequate
✦ Identify main distribution switchgear capabilities and breaker
configuration
✦ Identify and take reading of existing load to determine proper
size of temp UPS
✦ Identify physical location of temp UPS
✦ Note rental UPS Systems come in both typical “indoor”
configurations as well as self-contained trailers designed for
installation outside of facility
✦ Note it’s also important to determine the conductors lengths
required for the location of “temp UPS”
Critical
Loads
12. Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
UPS Replacement N Design
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Project Description: Replace existing UPS System
Utility
Electrical Distribution
✦ Identify is the utility adequate for the expansion or upgrade
✦ Identify is the generator adequate
✦ Identify main distribution switchgear capabilities and breaker
configuration
✦ Identify and take reading of existing load to determine proper
size of temp UPS
✦ Identify physical location of temp UPS
✦ Note rental UPS Systems come in both typical “indoor”
configurations as well as self-contained trailers designed for
installation outside of facility
✦ Note it’s also important to determine the conductors lengths
required for the location of “temp UPS”
✦ Temporary UPS installed feeding external maintenance bypass
Critical
Loads
13. Planning Phase
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
*NEMA 3 R – Cage and frame constructed for ease of movement – sizes up to 6,000A @ 480V
✦ Implementation of Temporary Generators
In stock up to 2 MW with capabilities to parallel
beyond that.
✦ Temporary Switchgear
Up to 6,000A @ 480V
*rentalized NEMA 3R cage and frame.
✦ Temporary UPS Systems
Self-contained UPS trailers or “indoor”
from small 10 kVA up to multi-megawatt.
✦ Power Distribution & Static Switches
14. UPS Replacement 2N Design
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Project Description: Replace existing UPS System
Critical
Loads
Static
Bypass
UtilityUtility
Transfer
Switchgear
Alternate Power
Source
Electrical DistributionElectrical Distribution
Transfer
Switchgear
Alternate Power
Source
UPS
N
UPS
+1
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard Output Distribution Switchboard
PDUPDU
Non-Critical
Loads
Non-Critical
Loads
Static
Bypass
Maintenance
Bypass
Maintenance
Bypass
15. UPS Replacement Discovery Phase
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Project Description: Branch Circuit Discovery
✦ Single Corded Loads
• Implications of shutting down loads
• Controlled shut down and installation of static switch
Most problems are at the branch level. Working in tandem with the IT/Operations survey
and visually inspect each rack and connected loads. Goal is to identify:
✦ Dual Corded Loads
• Plugged into the A and B properly
• Many times we find they are plugged into the same circuit or not distributed properly.
Using an amp probe identify the load on the circuit. Can the circuit accept the entire
load? Often times we find that the load will exceed the circuit.
16. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
17. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
18. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
19. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
✦ Close output breaker from the rental
UPS’s
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
20. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
✦ Close output breaker from the rental
UPS’s
✦ Open feeder breaker from existing
UPS system to output panel
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
21. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
✦ Close output breaker from the rental
UPS’s
✦ Open feeder breaker from existing
UPS system to output panel
✦ Ensure rental UPS has picked up
the load
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
22. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
✦ Close output breaker from the rental
UPS’s
✦ Open feeder breaker from existing
UPS system to output panel
✦ Ensure rental UPS has picked up
the load
✦ Shutdown existing UPS System and
open AC & DC breakers
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
23. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
✦ Close output breaker from the rental
UPS’s
✦ Open feeder breaker from existing
UPS system to output panel
✦ Ensure rental UPS has picked up
the load
✦ Shutdown existing UPS System and
open AC & DC breakers
✦ Temporary UPS is on line and
carrying load transfer building load
back to utility
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
24. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
✦ Close output breaker from the rental
UPS’s
✦ Open feeder breaker from existing
UPS system to output panel
✦ Ensure rental UPS has picked up
the load
✦ Shutdown existing UPS System and
open AC & DC breakers
✦ Temporary UPS is on line and
carrying load transfer building load
back to utility
✦ Existing UPS are ready to be removed
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
UPS System
Removed
25. UPS Replacement Execution
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
✦ Transfer “A” building load to generator
✦ Check rental UPS system and ensure
it is in bypass mode
✦ Place existing UPS system in bypass
✦ Close output breaker from the rental
UPS’s
✦ Open feeder breaker from existing
UPS system to output panel
✦ Ensure rental UPS has picked up
the load
✦ Shutdown existing UPS System and
open AC & DC breakers
✦ Temporary UPS is on line and
carrying load transfer building load
back to utility
✦ Existing UPS are ready to be removed
✦ Repeat these steps for “B” side of
data center
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
Critical
Loads
Static
Bypass
Utility
Transfer
Switchgear
Alternate Power
Source
Electrical Distribution
UPS
N
UPS
+1
Mechanical
Switchgear
Mechanical
Loads
Output Distribution Switchboard
PDU
Non-Critical
Loads
Maintenance
Bypass
Temporary UPS
UPS System
Removed
26. ✦ CIMs - (critical infrastructure module)
✦ IT
✦ Electrical
✦ Cooling
✦ Integrated (“all in one”)
Externalize Your Infrastructure
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Expansion is necessary but time or space pose challenges
29. ✦ Scalable by Design
✦ Concurrent Mfg
✦ Less Change Orders
✦ Less On-Site Hours
✦ Factory Built
Benefits of Modular Construction
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Expansion is necessary but time and space won’t allow.
✦ Lower CAPEX
✦ Predictive Schedule
✦ Predictive Cost
✦ Lower Safety Risk
✦ Reduced Onsite Waste
30. Speed of Deployment
Traditional
Modular
30% to 50%
Faster
Time Savings
GLOBAL POWER SUPPLY
Generating Solutions for Critical Facilities
Critical infrastructure modules can be deployed in 90 days.
31. GLOBAL POWER SUPPLY
Thank You
✦ Buy, Sell, Rent & Lease
✦ New, Surplus & Refurbished
✦ Generators, UPS & Cooling
www.globalpwr.com
(800) 706-0906
Any Questions?