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Steam Generation from Solar Trough Energy

Date post: 31-Dec-2015
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Steam Generation from Solar Trough Energy. The New Red B. Presentation Outline. Customer and Team Goals Recap Our Steam Generator Alternative, rejected ideas Anticipated Challenges Mock-up Results Future Challenges. Customer. Matt S. Orosz (MIT G, Engineering Systems) - PowerPoint PPT Presentation
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Steam Generation from Solar Trough Energy The New Red B
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Page 1: Steam Generation from Solar Trough Energy

Steam Generation from Solar Trough Energy

The New Red B

Page 2: Steam Generation from Solar Trough Energy

Presentation Outline

Customer and Team Goals Recap Our Steam Generator Alternative, rejected ideas Anticipated Challenges Mock-up Results Future Challenges

Page 3: Steam Generation from Solar Trough Energy

Customer

Matt S. Orosz (MIT G, Engineering Systems)

Working with Bethel Business and Community Development Center in Lesotho (southern Africa) to enable parabolic trough applications

Page 4: Steam Generation from Solar Trough Energy

Our Goal – Create More Applications for Parabolic Trough

Electricity Micro Hydro Power – hammer mills, power

tools Heating water Devices for clinics and schools

Page 5: Steam Generation from Solar Trough Energy

Our Steam Generator

Use Apricus solar absorption tube to produce steam within boiler

Water boiler designed to connect to interchangeable devices

Concentration: SterilizationBorosilicate Glass

Copper NubHeat Absorption Coating

Page 6: Steam Generation from Solar Trough Energy

Alternatives Considered-Steam Engine

Financially feasible Not enough solar energy to power a 1 hp

engine• Closed loop efficiency ~5%• Open loop efficiency ~2%

Integrating system components (pumps, condensers) also not feasible for this class

Page 7: Steam Generation from Solar Trough Energy

Alternatives Considered – Sterling Engine

Simpler principle than steam engine Not financially feasible

Low HP engines > $35,000

Technology not yet available (2005?) Still in R&D phase

Maximum efficiency ~ 10%, still not enough output

Page 8: Steam Generation from Solar Trough Energy

Anticipated Challenges

Heat Transfer, how? From nub to water to generating steam

Pressurized Steam - ASME Codes Tube Safety

Max operating temperature of 250°C Fragile Casing – Borosilicate glass

Maximum Strength 0.8 MPa

Page 9: Steam Generation from Solar Trough Energy

Our Mock-Up

Water is working fluid (20 oz)

“Solar” source: 250W heat lamps (4)

Gravity fed Nub conducts heat to

water until it reaches boiling temperature

Nucleate boiling

Boiler not pictured.

Page 10: Steam Generation from Solar Trough Energy

Knowledge from Mockup and Calculations

Boiler is currently heating water Time to initially reach boiling significant

Not using solar reflector, means less heat absorption

Using less than 1/20 of actual energy

Predict it will not film boil

Page 11: Steam Generation from Solar Trough Energy

Challenges Still to be Resolved

Experimentally confirm will not film boil at maximum anticipated solar heat flux

Make sterilizer from pressure cooker Pressurization of system to 45 psi (135°C) to run

for cooker


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