solar thermal systems for residential homes · 2017. 3. 28. · solar water heating solar space...
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Solar Thermal Systems for Residential Homes
Lingying Zhao, Professor Braydi McPherson, Student Assistant
Dept. of Food, Agricultural and Biological Engineering
The Ohio State University
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Questions:
What are solar thermal systems ?
Why solar thermal?
How effective and feasible that the solar thermal systems are?
How much do they cost and what are the payback periods?
How to select solar thermal systems?
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What are Solar Thermal System?
Systems to collect, storage, and transfer solar energy as heat energy for spacing conditioning and hot water.
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Why Solar Thermal?
High energy conversion efficiency Solar Thermal: 70% - 90% Solar Photovoltaics: 10% - 20%
Shorter Payback Solar Thermal: 3 - 6 years Solar Photovoltaics: 5 – 15 years
Reduces needs for other heating systems Saves energy and money
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Topics of the Day
Solar thermal energy fundamentals Passive solar heating Active solar thermal systems:
Solar hot air system for pace heating and dehumidification
Solar hot water system
Applications and products OSU research on solar heating and
humidification systems.
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Sun and earth
Solar constant: average solar radiation energy reaching the outside of earth’s atmosphere—433 Btu/hr.ft2.
Source: http://songkle1.blogspot.com/2015/12/how-to-use-earth-rotation-around-sun-to.html
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Atmospheric effects on solar radiation
Source: http://www.slideshare.net/NaginaNighat/atmosphere-amp-surface-energy-balance
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Atmospheric effects on solar radiation
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Total solar radiation Solar Constant = Solar flux density at
edge of earth’s atmosphere = 433 Btu/h-ft2
Total solar energy reaching earth’s surface= Et (Btu/hr-ft2) = EDN cos θ + Ed + Er
Where: EDN = Direct normal (perpendicular) radiationθ = angle of incidence (angle between incoming
rays and line normal to surface receptor)Ed= Diffuse radiation from skyEr = Reflected radiation from adjacent surfaces
θ
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Solar collector position
Collector title angle:(β)
Equal to the latitude-most consistent energy collection
Latitude angle (~40° for Ohio)
+/- 15º for winter and summer
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Typical Solar Thermal Systems
Solar thermal systems Passive solar systems Active solar systems
Solar water heating Solar space heating
Source: nssdc.gsfc.nasa.gov
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Solar Heating Systems--Passive
Heat is transferred by natural convection, conduction, and radiation without pump or fan power.
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Passive Solar Heating Systems
Source: http://www.iklimnet.com/save/passive_solar_heating.html
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Active Solar Heating Systems
Heat a fluid in order to provide hot water or space heating
Uses mechanical systems
Generally includes thermal mass to store heat
Source: http://www.daviddarling.info/encyclopedia/A/AE_active_solar_energy_system.html
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Active Solar - Flat Plate Collector
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A typical flat-plate collector is an insulated metal box with a glass or plastic cover, a dark-colored absorber plate, and flow tube for heat transfer fluid.
heat liquid or air at temperatures less than 180°F. Source: http://www.alternative-energy-tutorials.com/
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Active Solar-Integral collector storage systems (ICS) “Batch” or “bread
box” water heating systems
Heat tubes are much larger Collect and store
No pumps or sensors
Issues in colder climates
Source: http://www.alternative-energy-tutorials.com/
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17Source: http://www.alternative-energy-tutorials.com/
Parallel rows of transparent glass tubes. Each tube contains a glass outer tube and metal absorber tube attached to a fin. The fin is covered with a coating that absorbs solar energy well, but which inhibits radiative heat loss.
Air is removed, or evacuated, from the space between the two glass tubes to form a vacuum, which eliminates conductive and convective heat loss.
Most efficient, more expensive, and low weight
Vacuum space in external tubes Decreased heat loss from tubes
Rounded tubes increase efficiency
Active Solar—Evacuated tube solar collectors
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Active Solar Storage
Water systems: transfer heat directly to water
Store energy in phase changing materials
18Source: www.rgees.com
Source: Department of Climate Change and Energy Efficiency of Australia
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Application - Costs
Vary based on type of system and capacity
1 gallon of hot water = 1 ft2 collector area
Incentives - can reduce initial cost up to 75% depending on location http://www.dsireusa.org/
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Application - Costs
Source: NC Public Power
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Application - Costs
Source: NC Public Power
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http://www.dovetailsolar.com/
Cost Examples:Dovetail – Solar and Wind in Ohio
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Image Source: http://www.dovetailsolar.com/
Dovetail – Solar and Wind in Ohio
Athens, OH48 square foot systemEstimated cost: $10,000
Alliance, OH Estimated cost: $10,000
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Example – Hot Air Collector
Source: http://www.northerntool.com/
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Example – Hot Air Collector
Source: http://www.northerntool.com/
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Example – Hot Water Collector
http://www.amazon.com/Duda-Solar-Collector-Evacuated-Certified/dp/B003SVNY88
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Examples of Thermal Storage
Source: http://www.homedepot.com/
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OSU Research on Solar HVAC
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OSU Research on Solar HVAC
Humidi-fier
Night Ventilation
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Summary
Solar energy collectors are advancing dramatically. Applications of solar energy system become feasible.
Solar thermal systems efficiently using sun power.
The payback period is short.
Hybrid and innovative solar systems are needed for residential houses to meet various space conditioning and water heating needs.