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Premium member Presentation Transcript Clean Energy Project Analysis Course: Clean Energy Project Analysis Course Photo Credit: Conserval Engineering Industrial Solar Air Heating System, Quebec, Canada Solar Air Heating Project Analysis © Minister of Natural Resources Canada 2001 – 2004.Objectives: Objectives Review basics of Solar Air Heating (SAH) systems Illustrate key considerations for SAH project analysis Introduce RETScreen® SAH Project Model © Minister of Natural Resources Canada 2001 – 2004.What do SAH systems provide?: Warm ventilation air Warm process air …but also… Weather cladding Reduced heat loss through wall Reduced stratification Better air quality Reduced negative pressure problems What do SAH systems provide? Photo Credit: Arctic Energy Alliance Photo Credit: Enermodal Engineering School, Yellowknife, Canada Solar Collector © Minister of Natural Resources Canada 2001 – 2004.SAH System Operation: SAH System Operation Dark perforated absorber captures solar energy Fan draws air through collector & canopy Controls regulate temperature Dampers Auxiliary heating Air is distributed through building Wall heat loss recovered Destratification Summer bypass damper 1 5 4 3 2 6 7 © Minister of Natural Resources Canada 2001 – 2004.Commercial/Residential SAH Systems: Commercial/Residential SAH Systems Conventional heat added as required No destratification Economiser cycle permits using more fresh air Two types of systems Dedicated ventilation (apartments & schools) Heating, cooling & ventilation with 10-20% fresh air SAH collector connects to conventional fans and ductwork © Minister of Natural Resources Canada 2001 – 2004.Industrial SAH Systems: Industrial SAH Systems Temperature control: mix fresh and recirculated air, add heat if necessary Destratification: cool air mixes with ceiling air and descends For ventilation air in factories, warehouses, etc. Perforated fabric ducting distributes air at ceiling level © Minister of Natural Resources Canada 2001 – 2004.SAH System for Process Heat: SAH System for Process Heat Collector mounted on any convenient surface Output of collector ducted to process Temperature can be regulated by Conventional heater Bypass damper Crop drying Requires low temperatures to avoid crop damage Preheat air for industrial processes Photo Credit: Conserval Engineering © Minister of Natural Resources Canada 2001 – 2004. Tea Drying Shelter, West Java, IndonesiaSolar Resource vs. Demand for Ventilation Heat: Solar Resource vs. Demand for Ventilation Heat 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 Iqaluit, Canada, 64º N Moscow, Russia, 55º N Buffalo, USA, 43º N Lanzhou, China, 36º N Jakarta, Indonesia, 6º S Peak Sun Hours per Day in Plane of Collector Months with average temperature <10ºC are shaded Vertical, equator facing surfaces except Jakarta (horizontal) Fraction of month used 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 © Minister of Natural Resources Canada 2001 – 2004.SAH System Costs and Savings: SAH System Costs and Savings Installed costs: Collector: $100 to $250/m2 Ventilation system: $0 to $100/m2 Total: $100 to $350/m2 minus cost of conventional cladding Energy Collected: 1 to 3 GJ/year $0 $20 $40 $60 $0.17/m3 $0.45/m3 $0.30/L $0.70/L $0.05/kWh $0.12/kWh Electricity Diesel Gas Annual Savings for 2 GJ Output 1 m2 of collector © Minister of Natural Resources Canada 2001 – 2004.Solar Air Heating Project Considerations: Solar Air Heating Project Considerations Most cost-effective in new construction and renovation Cladding credit Ensure that existing ventilation system accommodates SAH easily Most dark colors have absorptivity of 0.80-0.95 Architectural concerns can be very important Higher occupancy more cost-effective Can be fitted around windows and doors Existing fans & ducting can be used Low or no added maintenance costs Photo Credit: NRCan © Minister of Natural Resources Canada 2001 – 2004.Examples: Canada and USA Ventilation Air Heating Systems: Examples: Canada and USA Ventilation Air Heating Systems Improved air quality at low cost Size ranges from a few m2 to 10,000 m2 Ducts should be located near south wall Paybacks of 2 to 5 years typical Industrial systems often have quickest payback Photo Credit: Conserval Engineering © Minister of Natural Resources Canada 2001 – 2004. Apartment Building, Ontario, Canada Portable Classroom, Ontario, Canada Brown Collector on Industrial Building, Connecticut, USA Photo Credit: Conserval EngineeringExample: Indonesia Process Heat Systems: Example: Indonesia Process Heat Systems Normally constant flow rate systems with very simple controls Used for drying crops that are harvested throughout the year Best if sunny season coincides with harvest © Minister of Natural Resources Canada 2001 – 2004. Photo Credit: Conserval Engineering Tea Drying Shelter, West Java, IndonesiaRETScreen® Solar Air Heating Project Model: RETScreen® Solar Air Heating Project Model World-wide analysis of energy production, life-cycle costs and greenhouse gas emissions reductions Ventilation air Process heat Heat recovery Destratification Only 12 points of data for RETScreen® vs. 8,760 for hourly simulation models Currently not covered: Advanced HRV systems Non Solarwall® technology Unbalanced ventilation systems © Minister of Natural Resources Canada 2001 – 2004.RETScreen® SAH Energy Calculation: See e-Textbook Clean Energy Project Analysis: RETScreen® Engineering and Cases Solar Air Heating Project Analysis Chapter © Minister of Natural Resources Canada 2001 – 2004. RETScreen® SAH Energy CalculationExample Validation of the RETScreen® SAH Project Model: Example Validation of the RETScreen® SAH Project Model © Minister of Natural Resources Canada 2001 – 2004.Conclusions: Conclusions SAH provides ventilation and process air heating Locations throughout world have solar energy available when ventilation air heating is required SAH serves as weather cladding and feeds into conventional ventilation systems For SAH systems, RETScreen® calculates Energy collected, efficiency, and temperature rise Wall heat loss recovery Reduced heat loss due to destratification RETScreen® is an annual analysis with monthly resource calculation that can achieve accuracy comparable to hourly simulation models RETScreen® can provide significant preliminary feasibility study cost savings © Minister of Natural Resources Canada 2001 – 2004.Questions?: Questions? © Minister of Natural Resources Canada 2001 – 2004. Solar Air Heating Project Analysis Module RETScreen® International Clean Energy Project Analysis Course You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Course sah Bina Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 163 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: January 21, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Clean Energy Project Analysis Course: Clean Energy Project Analysis Course Photo Credit: Conserval Engineering Industrial Solar Air Heating System, Quebec, Canada Solar Air Heating Project Analysis © Minister of Natural Resources Canada 2001 – 2004.Objectives: Objectives Review basics of Solar Air Heating (SAH) systems Illustrate key considerations for SAH project analysis Introduce RETScreen® SAH Project Model © Minister of Natural Resources Canada 2001 – 2004.What do SAH systems provide?: Warm ventilation air Warm process air …but also… Weather cladding Reduced heat loss through wall Reduced stratification Better air quality Reduced negative pressure problems What do SAH systems provide? Photo Credit: Arctic Energy Alliance Photo Credit: Enermodal Engineering School, Yellowknife, Canada Solar Collector © Minister of Natural Resources Canada 2001 – 2004.SAH System Operation: SAH System Operation Dark perforated absorber captures solar energy Fan draws air through collector & canopy Controls regulate temperature Dampers Auxiliary heating Air is distributed through building Wall heat loss recovered Destratification Summer bypass damper 1 5 4 3 2 6 7 © Minister of Natural Resources Canada 2001 – 2004.Commercial/Residential SAH Systems: Commercial/Residential SAH Systems Conventional heat added as required No destratification Economiser cycle permits using more fresh air Two types of systems Dedicated ventilation (apartments & schools) Heating, cooling & ventilation with 10-20% fresh air SAH collector connects to conventional fans and ductwork © Minister of Natural Resources Canada 2001 – 2004.Industrial SAH Systems: Industrial SAH Systems Temperature control: mix fresh and recirculated air, add heat if necessary Destratification: cool air mixes with ceiling air and descends For ventilation air in factories, warehouses, etc. Perforated fabric ducting distributes air at ceiling level © Minister of Natural Resources Canada 2001 – 2004.SAH System for Process Heat: SAH System for Process Heat Collector mounted on any convenient surface Output of collector ducted to process Temperature can be regulated by Conventional heater Bypass damper Crop drying Requires low temperatures to avoid crop damage Preheat air for industrial processes Photo Credit: Conserval Engineering © Minister of Natural Resources Canada 2001 – 2004. Tea Drying Shelter, West Java, IndonesiaSolar Resource vs. Demand for Ventilation Heat: Solar Resource vs. Demand for Ventilation Heat 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 Iqaluit, Canada, 64º N Moscow, Russia, 55º N Buffalo, USA, 43º N Lanzhou, China, 36º N Jakarta, Indonesia, 6º S Peak Sun Hours per Day in Plane of Collector Months with average temperature <10ºC are shaded Vertical, equator facing surfaces except Jakarta (horizontal) Fraction of month used 0 2 4 6 1 2 3 4 5 6 7 8 9 10 11 12 © Minister of Natural Resources Canada 2001 – 2004.SAH System Costs and Savings: SAH System Costs and Savings Installed costs: Collector: $100 to $250/m2 Ventilation system: $0 to $100/m2 Total: $100 to $350/m2 minus cost of conventional cladding Energy Collected: 1 to 3 GJ/year $0 $20 $40 $60 $0.17/m3 $0.45/m3 $0.30/L $0.70/L $0.05/kWh $0.12/kWh Electricity Diesel Gas Annual Savings for 2 GJ Output 1 m2 of collector © Minister of Natural Resources Canada 2001 – 2004.Solar Air Heating Project Considerations: Solar Air Heating Project Considerations Most cost-effective in new construction and renovation Cladding credit Ensure that existing ventilation system accommodates SAH easily Most dark colors have absorptivity of 0.80-0.95 Architectural concerns can be very important Higher occupancy more cost-effective Can be fitted around windows and doors Existing fans & ducting can be used Low or no added maintenance costs Photo Credit: NRCan © Minister of Natural Resources Canada 2001 – 2004.Examples: Canada and USA Ventilation Air Heating Systems: Examples: Canada and USA Ventilation Air Heating Systems Improved air quality at low cost Size ranges from a few m2 to 10,000 m2 Ducts should be located near south wall Paybacks of 2 to 5 years typical Industrial systems often have quickest payback Photo Credit: Conserval Engineering © Minister of Natural Resources Canada 2001 – 2004. Apartment Building, Ontario, Canada Portable Classroom, Ontario, Canada Brown Collector on Industrial Building, Connecticut, USA Photo Credit: Conserval EngineeringExample: Indonesia Process Heat Systems: Example: Indonesia Process Heat Systems Normally constant flow rate systems with very simple controls Used for drying crops that are harvested throughout the year Best if sunny season coincides with harvest © Minister of Natural Resources Canada 2001 – 2004. Photo Credit: Conserval Engineering Tea Drying Shelter, West Java, IndonesiaRETScreen® Solar Air Heating Project Model: RETScreen® Solar Air Heating Project Model World-wide analysis of energy production, life-cycle costs and greenhouse gas emissions reductions Ventilation air Process heat Heat recovery Destratification Only 12 points of data for RETScreen® vs. 8,760 for hourly simulation models Currently not covered: Advanced HRV systems Non Solarwall® technology Unbalanced ventilation systems © Minister of Natural Resources Canada 2001 – 2004.RETScreen® SAH Energy Calculation: See e-Textbook Clean Energy Project Analysis: RETScreen® Engineering and Cases Solar Air Heating Project Analysis Chapter © Minister of Natural Resources Canada 2001 – 2004. RETScreen® SAH Energy CalculationExample Validation of the RETScreen® SAH Project Model: Example Validation of the RETScreen® SAH Project Model © Minister of Natural Resources Canada 2001 – 2004.Conclusions: Conclusions SAH provides ventilation and process air heating Locations throughout world have solar energy available when ventilation air heating is required SAH serves as weather cladding and feeds into conventional ventilation systems For SAH systems, RETScreen® calculates Energy collected, efficiency, and temperature rise Wall heat loss recovery Reduced heat loss due to destratification RETScreen® is an annual analysis with monthly resource calculation that can achieve accuracy comparable to hourly simulation models RETScreen® can provide significant preliminary feasibility study cost savings © Minister of Natural Resources Canada 2001 – 2004.Questions?: Questions? © Minister of Natural Resources Canada 2001 – 2004. Solar Air Heating Project Analysis Module RETScreen® International Clean Energy Project Analysis Course