Archive for February, 2016

HP is a technology company that operates in more than 170 countries around the world. HP explores how technology and services can help people and companies address their problems and challenges, and realize their possibilities, aspirations and dreams. HP applies new thinking and ideas to create more simple, valuable and trusted experiences with technology, continuously improving the way its customers live and work.

Challenge

Hewlett-Packard unveiled one of the most ambitious data center consolidation projects ever, which consolidated 85 data centers worldwide into six larger centers located in three U.S. cities – Atlanta, Houston and Austin. However, distributing the power in these mission critical facilities required ultra energy efficiency that was unmatched in the industry.

Solution

PQI was selected as the ultra energy efficient transformer source for numerous 500 kVA transformers. These transformers were custom made for HP and were beyond any industry standard for efficiencies in the industry.

Impact

The consolidation will help HP reduce its IT spending by approximately $1 billion in the coming years. The facilities also will serve as a showcase for HP Adaptive Infrastructure products and services. The data centers will provide HP with more dependable, simplified operations. This effort will enable faster delivery of new technologies, services and information and provide room for growth and improved business continuity, while significantly reducing costs. And HP will enjoy the highest power quality in the industry as a result of the PQI ultra energy efficient transformers.

POWER     QUALITY     INTERNATIONAL is the industry leader in the development, design and manufacturing of harmonic mitigating and energy-efficient transformer technologies. With a passion for solving problems and helping customers achieve power quality and energy efficiency, PQI delivers cost-effective solutions that ensure power quality and energy efficiency for the life of their customers facilities.

Reluctance to the use of aluminum conductors is the result of the problems that were first encountered over 40 years ago when making inappropriate aluminum to copper wiring connections in the field. The problem was the formation of aluminum oxides, a resistive compound, in the electrical connection. Serious overheating of the connection resulted.  Problems were also discovered when aluminum wire was mechanically inserted into copper fittings; each metal having different rates of thermal expansion.  Aluminum is now standard in high and medium class power transformers, distribution transformers and high power magnetics.

  • Aluminum is the industry standard in lighting transformers in 90% of commercial and industrial facilities.
  • Aluminum conductors are commonly used in utility and industrial transformers.

Aluminum Benefits

  • Equivalent Performance when compared to Copper
  • Lower Capital Cost than Copper
  • More Attractive Payback & Return-on-Investment
  • Longer Life Expectancy than Copper
  • Field Proven Track Record
  • Cooler Operating Temperatures than Copper
  • Lower AC Costs

Physical Properties and Design Requirements

Conductivity – 61% compared to Copper
Aluminum conductors require 66% more cross sectional area than copper.

Density – 30% compared to Copper
Aluminum windings require 66% higher cross sectional area than copper but have half the winding weight of copper.

Thermal Conductivity – 68% compared to
Since the aluminum conductor’s cross sectional area is 66% larger, the aluminum conductor will have 11% more thermal conductivity than copper.

Heat Capability – 2.5 times higher than Copper
For the same heat applied, the temperature rise will be 2.5 times less on a per pound basis. Since the weight of aluminum is only half that of copper, aluminum will have a 16% lower temperature rise, resulting in a cooler transformer.

Coefficient of Expansion – Higher for Aluminum;
Negated by welding connections to like material (i.e. AL wire to AL bus bar) and using absorption connectors.

Oxidization – ALO2 is an insulator
No oxide forms when conductive grease is applied. The grease eliminates exposure to moisture and oxygen. In fact, this connection has a better lifetime outcome than a copper bus bar.

Thermal Cycling – Annealing
In addition to a lower temperature rise, aluminum windings will cool less rapidly than copper. There is no brittlizing of the conductors due to wide temperature ranges. Wire is annealed, not tempered, with no adverse physical affects.

Sound Aluminum Conductor Design Practices

Internal Conductor Terminations
Internal conductors must be welded to aluminum bus bars. This ensures lifetime connections.

Customer Terminations
Expandable ‘Belleville Washers’ allow for thermal expansion to be absorbed without compromising the integrity of the connection.

Oxidization
The application of conductive grease on the plated copper cable lug to aluminum bus bar interface ensures that no moisture or air will come in contact with these conducting surfaces to produce oxidization.

Cost / Design Perspective

  • Aluminum costs 70% less per pound than copper, while the weight of the required aluminum is 50% less than
  • Conductor cost is roughly 40% – 50% that of
  • Magnetics weight is approximately 5-10% less (most of the weight still is in the core).
  • Aluminum magnetics will typically operate
  • Aluminum is less reactive to varnishes and many other chemicals used in magnetic production, resulting in a longer life
  • Volumetrically, aluminum and copper designs are almost
  • Energy efficiency requirements are
  • Design practices are now well accepted, with units in operation for more than 40

PQI clients and customers benefit from over fifty years of engineering and technical hands-on field experience. With the exception of Antarctica, we’ve completed major assignments on every continent.

With its technical and manufacturing ‘know how’, PQI was first to develop and commercialize a number of leading-edge power magnetic technologies and products. These accomplishments, some of which are listed here, provide cost-effective solutions to various technical, power quality and energy efficiency problems.

2015 First to offer three Transformer Efficiencies that Exceed DOE 2016 efficiency requirements, under the linear or nonlinear load environments for which they were designed.

First to receive a UL Certificate of Compliance per UL1562 for our Harmonic Mitigating, Medium Voltage, Cast-Coil Power Transformers. Both CSA and UL have approved our manufacturing facility as a Qualified Product Evaluation and Test Facility.

Measurements and test data generated during product evaluation is now accepted by both CSA and UL for product approval.

Power TransFilters™ have also received Seismic Pre-Certification in accordance with the requirements of the International Building Code 2012 (IBC2012), the California Building Code 2013 (CAB2013) and the National building Code of Canada 2010 (NBC2010). In addition, the transformers specifically met the requirements of OSHPD (Office of Statewide Health Planning and Development of California).

PQI’s Standard Z3 Efficiency Rating exceeds the US DOE 2016 requirements. Optional Z3+ and Z4 (US DOE CSL 4) efficiencies are available when their additional cost produced an attractive payback and ROI.