1 / 13

Sustainable Laboratory Design: Challenges and Solutions

Sustainable Laboratory Design: Challenges and Solutions. Stephen P. Mead, Ph.D. College of Engineering Northern Arizona University Flagstaff, Arizona USA Phone: 928.213.8140 E-mail: stephen.mead@nau.edu. The Modern Laboratory Building. Laboratory Sustainability Challenges.

chi
Télécharger la présentation

Sustainable Laboratory Design: Challenges and Solutions

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Sustainable Laboratory Design:Challenges and Solutions Stephen P. Mead, Ph.D. College of Engineering Northern Arizona University Flagstaff, Arizona USA Phone: 928.213.8140 E-mail: stephen.mead@nau.edu

  2. The Modern Laboratory Building

  3. Laboratory Sustainability Challenges • Laboratory spaces use 5 –10 times more energy per square foot than the typical office building. • Significant Plug/Process Loads: • 20–100 watts/sf • Bio-Safety / Ventilation Requirements • Toxic waste • Prodigious Water Use

  4. Government initiative to improve the environmental performance of U.S. laboratories. • Improving energy and water efficiency, encouraging renewable energy sources, and promoting environmental stewardship in laboratories. • Three components: • Partnership program • Training • Tool kit

  5. Labs 21 Approach • Adopt voluntary goals. • Assess opportunities from a “whole buildings” approach. • Use life-cycle cost analysis as an important decision-making tool. • Incorporate a comprehensive, whole building commissioning process into new construction and retrofit projects. • Employ a range of energy and water efficiency strategies.

  6. Labs 21 Approach (cont’d) • Measure energy and water consumption and track emission reductions. • Evaluate on-site power generation, combined heat and power technologies, and renewable power purchases. • Build with “green” construction materials. • Promote energy and water efficiency efforts.

  7. Applied Research and Development Facility (ARD) • LABS 21 Pilot Project • Create Plug and Play Research Space • Promote collaboration between disciplines. • Create new technologies and incubate new businesses • Attain LEED Platinum Designation

  8. Moving Toward Sustainability:Some Specific Solutions • Efficient HVAC distribution systems • Right Size Equipment • Day lighting

  9. High Performance Fume Hoods • More than 500,000 fume hoods in U.S. • Push / Pull Design uses 50% less energy • Annual Energy Savings: $2100

  10. Phyto-Remediation “Living Machine”

  11. Biomass Energy • Fuel Source: Small Diameter Ponderosa Pine • Cogeneration: Steam & Electricity • Meets LEED Requirements for renewable energy

  12. Creating Feedback Loops • Whole Building Commissioning • Data Collection / Visualization

  13. Questions?

More Related