1 / 13

Solar Thermal Humidity Control

Solar Thermal Humidity Control. The Problem. High air conditioning electricity consumption High hot water heating energy consumption Inefficient humidity control through air conditioning Poor indoor air quality Mold, Mildew and Allergen Growth Cost of mitigation and long payback cycle

calix
Download Presentation

Solar Thermal Humidity Control

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. Solar Thermal Humidity Control

  2. The Problem • High air conditioning electricity consumption • High hot water heating energy consumption • Inefficient humidity control through air conditioning • Poor indoor air quality • Mold, Mildew and Allergen Growth • Cost of mitigation and long payback cycle • Need to maintain occupant comfort • Integrated system to maximize system efficiencies • Flexible and scalable for existing building installation • Turnkey installation of all associated trades

  3. Solution – Humidity Control using a Renewable Energy Source • Dehumidify the air with Solar Thermal at the Heat Source • Benefits: • Reduced Costs • Healthier Air • Green Technology • Tailored to your needs: • Integrated design to maximize system efficiencies • Flexible and scalable for existing building installation • Turnkey installation of all associated trades

  4. Why Humidity Control?

  5. Aquarii System -Solar Thermal Desiccant Humidity Control • Three proven energy savings technologies • Solar Thermal Collection • Tank Less Hot Water Heater • Desiccant Wheel Dehumidifier

  6. Air Flow

  7. How It Works

  8. Energy Savings • Higher building set temperatures ( up to 78) • For every deg F increase, A/C savings are estimated at 5-7%. • Solar thermal hot water for potable water demand (showering, hand wash, cooking, cleaning, pool heat) • Finally a way to convert solar energy to part of the air conditioning requirement.

  9. Example Install - Patrick AFB The Problem: • PAFB parachute drying facility • Air conditioning system to dry 100 parachutes 24 hour period • Upwards of 5 days to accomplish mission • High electrical energy consumption • Mold complaints • Renewable energy mandates unmet for this installation

  10. Solution Humidity Control using a Renewable Energy Source • Reduce Air Conditioning Load • Energy Cost Reduction (projected at 50%) • Designed to Meet Mission Critical Drying Times (1 day, 100 chutes) • Improve Indoor Air Quality • Improve building worker comfort • Turnkey installation PAFB Experienced Contractors • Simple system maintenance requirements

  11. PAFB Desiccant

  12. Potential Military Applications • Barracks • Commissaries • Recreational Facilities • Weapons and Ordinance Storage Facilities • Painting and Repair Facilities • Parachute Drying Facilities • Assembly/Auditorium • Expeditionary Facilities • Medical Facilities • Office Buildings

  13. For additional information: Cliff D’Angelo, LEED AP 407-459-0053 cliff.dangelo@aquariiservices.com greencliff@netbusiness.com aquariiservices.com

More Related