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Electrical
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- Energy Efficiency
- The 2007 Energy Act: Good News for Motor Users
- How EISA Will Affect Your Motor Policy
- Introduction to Premium Efficiency Motors
- NEMA Premium® Motors Mean Big Savings
- MotorSlide Calculator™
- Creating a Motor Inventory, Repair/Replace Guidelines
- Case Studies
- 100 Miles of Copper Cable Connects, Protects 4.6-MW Photovoltaic Solar Farm
- Driving America to Energy Independence, 30-mph Wind + Plug-In Hybrids = 100 mpg
- Copper-Rotor Motors + Variable Frequency Drives Maximize Savings at a Brass Mill
- Copper-Rotor Motors + Variable Frequency Drives Maximize Savings at Water Treatment Plant
- Bowling Pin Manufacturer Fights Rising Energy Costs With Premium-Efficiency Motors
- Mineral Producer Installing 150 Copper-Rotor Motors Rising Energy Costs Drive Upgrades, Rapid Payback Expected
- Shaw Industries Demands NEMA Premium® Efficiency Motors
- Bryant University Saves Energy Cuts Costs With All-Copper Systems
- Transformer Manufacturer Uses Only Copper
- Copper and Wind Energy
- Motor Upgrades Help Cut HVAC Energy Costs
- Kodak Focuses on NEMA Premium®
- Skating Arena Cuts Energy Costs with Premium-Efficiency Motors
- Brass Mill Cuts Costs with NEMA Premium® Motors
- Weyerhaeuser Policy Calls for Premium-Efficiency Motors and Transformers
- Cummins Engine Company Saves With Energy Efficiency Motors
- Energy-Efficient Transformer Yields 156% ROI
- DOE Mandates Higher Efficiency for Distribution Transformers
- Temperature Rise and Transformer Efficiency
- Introduction to Transformer Losses
- Proper Transformer Sizing & Copper Windings
- Transformer Life Cycle Cost
- High-Efficiency Utility Transformers Mean Lowest Total Owning Cost
- High-Efficiency Copper-Wound Transformers Save Energy and Dollars
- It's a Law of Physics: Copper Saves You Money
- One Wire Size Up Means Big Savings
- Have a Good Story to Tell?
- A Systems Approach to Calculating Energy Savings
- High Efficiency Motors & Transformers CD-ROM
- Motor Systems Training
- The 2007 Energy Act: Good News for Motor Users
- Power Quality
- Proper Grounding Prevents Outages
- A Power Quality Primer
- Two Modern Power Quality Issues – Harmonics & Grounding
- Are You Ready for the Electrical Needs of Today and Tomorrow?
- Wiring for Power Quality
- An Abbreviated Bibliography of Power Quality Information Sources
- Have a Good Power Quality Story To Tell?
- Case Study: New Grounding System Ends Lightning
- Case Study: Proper Copper Grounding Stops Lightning Damage
- Case Study: Copper Grounding System Protects Mt. Washinghton Towers
- Case Study: Old Walmart + Electrical Upgrade = New 9-1-1 Center
- Case Study: Florida 911 Center Upgrades Lightning Protection System
- Case Study: All-Copper Grounding Systems End Million Dollar Losses
- Case Study: Added Copper Improves Grounding, Subdues Thunderstorm Threats
- Case Study: Copper Ensures Reliability, Power Quality at Boston Data Center
- Case Study: Reliable Grounding Saves Years of Seed Development, Protects Equipment, Stops High-Cost Losses
- Case Study: Power Quality Gets Top Grades at Business-Oriented University
- Case Study: Allegheny Power Insists on Copper For Substation Transformers
- Case Study: Copper Protects MIT Computer Center
- Case Study: Copper Corrects Power Quality Problems
- Case Study: Florida Credit Union Data Center Shrugs Off Direct Lightning Hit
- Case Study: All-Copper Grounding Network Ensures Reliability
- Case Study: Copper Checks in @ Internet Hotel
- Case Study: Networked Plant Learns the Value of Proper Grounding
- Case Study: All-Copper Electrical & Grounding Systems Ensure Reliability
- Case Study: Copper-based Grounding System Ends Lightning Damage
- Case Study: Two Miles of Copper Grounding Saves Big Money
- Case Study: New Rules - and Copper Conductors Help Upgrade a 20-Year-Old Electric System
- Power Quality CD-ROM
- Proper Grounding Prevents Outages
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High-Efficiency Utility Transformers Mean Lowest Total Owning Cost
Almost all electric utility transformer purchases are “loss evaluated” units.
This purchasing practice has increased significantly in the past 15 years as utilities have become aware of the range of losses at each kVA rating in units currently available and the value of these losses. On the other hand, very few non-utility buyers conduct loss evaluations. Many purchase transformers on a first-cost basis only.
Consideration of transformer efficiency is critical to reducing the load impact on the power producer and to the total owning cost of the purchaser.
Transformer efficiency is influenced by many factors. Primary influences include the choice and quantity of the conductor used in the windings in addition to the quality of the core material. The better the conductor, the lower the heat or I2R losses. Copper is a more efficient conductor than aluminum; an enlarged cross-sectional area of copper results in lower resistance and, therefore, lower I2R losses.
Many transformer units have actual conductor watt losses that are three to four times core watt losses. Such conductor losses can range from a low of near 130 watts to 350 watts or more for a 25 kVA unit. Levels ranging above 200 watts are unnecessary and may be costly. Purchasers should be encouraged to examine the actual load and duty cycle of each transformer and the resulting I2R conductor loss and its impact on their cost of operation before making a purchase.
Loss evaluation can be a complex process. However, as utility companies have learned, this evaluation is an important step in the purchasing process and one that commercial and industrial users could benefit from greatly.
Higher “loss evaluation” values result in more expensive transformer units. However, use of better transformers leads to lower actual watt losses and reduced operating costs. Therefore, life cycle cost evaluations should be expanded to cover all transformer units above about 10 kVA rather than simply comparing “first cost” among units available, as is currently done with many distribution transformers– pole-mounted, pad-mounted or dry-type.
Transformer life for utility units is expected to be 30 to 40 years. Therefore purchasing practices based on loss evaluations and life cycle costs can yield significant savings.
For utility-type transformers, there has been a long-term trend toward designing transformers for increased efficiency of operation (lower losses), based on the increasing costs of wasted energy in the utility grid. This trend has resulted in the use of more metal in a given transformer, and a trend toward more copper since it is inherently more energy efficient.
| ACTUAL I2R LOSS (25 kVA Transformer) |
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| USER'S LOSS VALUATIONS |
HIGH-EFFICIENCY COPPER-WOUND trANSFORMERS MAKE A DIFFERENCE |
Upcoming Events
West Coast EMC
May 23 - May 24, 2012
Seattle, WA
Highlights
Busbar section includes AC and DC ampacity tables, mechanical properties, sources, and additional engineering information.
Learn more about High Efficiency Motors & Transformers CD-ROM
Energy Efficiency Case Studies:
Furniture Manufacturer Realizes 7-month Payback With All-Copper Transformer
It’s Proven!!Using Improved Motors Produce Huge Savings and Fast Paybacks.
Find out how...
Do You Have an Energy Efficient Story to Tell?
CDA is interested in hearing how your company has saved money by choosing copper. More info…
Order Energy Efficiency Educational and Technical Publications
