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Cleanroom Energy Benchmarking Results

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Benchmarking & Best Practices Wide variation in performance Benchmarking results being reviewed to identify best practices Efficiency opportunity was found at each ... – PowerPoint PPT presentation

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Title: Cleanroom Energy Benchmarking Results


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LBNLs high-tech buildings initiative a wide
breadth of activities
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Energy intensive high-tech buildings
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Cleanrooms The Opportunity
  • Up to 100x more energy-intensive than typical
    buildings (Class-1 cleanroom can be up to 600
    ac-h)
  • Promising Measures
  • Govern ventilation by performance rather than
    rules of thumb
  • Improved process load projection
  • More efficient HVAC
  • Low-pressure-drop design

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Current cleanroom activities
  • Benchmarking and Best Practices
  • Fan-filter unit test procedure
  • Demand-controlled filtration
  • Minienvironments

Cleanroom Measured Electricity End-use
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We see a wide range of efficiencies For example
cleanroom recirculation systems
Choice of air delivery strategy strongly
influences energy intensity
Avg Pressurized Plenum
Ducted FFU
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Wide range of efficiencies For example make-up
air systems
Choices in the design of air systems strongly
influences energy intensity
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Wide range of efficiencies For example
fan-filter units
  • Efficiencies vary by a factor-of-four
  • Need for test standards

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Working with benchmark results
  • Benchmarking Best Practices
  • Wide variation in performance
  • Benchmarking results being reviewed to identify
    best practices
  • Efficiency opportunity was found at each
    benchmarking site (see case study reports)

Chiller performance ranged from 0.5 to 5 kW/ton
over range of 5 to 50 tons
Air-change rates suggest possible reduction
without compromising process)
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Laboratories the opportunity
  • Labs are up to 5x as energy-intensive as typical
    buildings fume hoods use gt3x as much energy as
    typical home
  • Promising Measures
  • Low-pressure-drop design
  • Ventilation and hood flows governed by
    performance rather than rules of thumb

Berkeley Hood installed at UCSF
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Laboratories - current LBNL activities
  • Benchmarking and Best Practices
  • Laboratories for the 21st Century
  • High-Performance Fume Hood
  • Working towards CAL/OSHA acceptance
  • Side-by-side testing including non-standard
    dynamic tests
  • Demonstrations in three industrial settings

LBNLs Geoffrey Bell performing dynamic
side-by-side tests comparing 6-foot Berkeley Hood
with a standard hood.
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What are the big opportunities?
  • Right sizing systems
  • Low pressure drop systems
  • Low face velocity in air handlers
  • Low pressure drop filters
  • Large duct/plennum
  • Air change rates
  • Lower airflow in fume hoods
  • Variable speed chillers
  • Minimize or eliminate reheat
  • Free cooling for process loads
  • Energy efficient Uninterruptable Power Supplies
  • Recirculation air setback

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LBNL high-tech buildings website
  • http//hightech.lbl.gov
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