Calibration of a Modular Dish Design using Lunar Flux Mapping
Transcript of Calibration of a Modular Dish Design using Lunar Flux Mapping
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Calibration of a Modular Dish Design using Lunar Flux Mapping
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Presented by: Jonathan Kyle Swanepoel
Supervisors: Dr W.G. Le Roux and Dr A. Lexmond
Clean Energy Research Group (CERG)
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Overview____________________________________________________________________• Introduction• Problem• Research Objectives• Research Methodology• Current Progress
- Preliminary Testing- Modular Dish Design- Modular Dish Calibration- Preliminary Optical Analysis
• Research to Follow• Industrial Implications• Conclusion
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Introduction____________________________________________________________________
• Increasing demand for off-grid power generation in rural Africa.
• Settlements and farmsteads experience inflated rates for electricity or are not reached all-together.
• An experimental study on the efficiency of a small-scale solar thermal Rankine cycle using direct steam generation.
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Problem____________________________________________________________________
• Focus has shifted towards large scale CSP, supplying directly to the grid.
• Relevant research is outdated or does not take into account the conditions within sub-Saharan Africa.
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Research Objectives____________________________________________________________________
Determine the potential for direct steam generation solar thermal Rankine cycles, at distributed scale, to assist in meeting the needs of powering rural settlements.
• Develop a solar concentrator that can be locally manufactured out of affordable materials.
• Analyse the efficiency of a simple cavity receiver design in a Rankine cycle power generation process.
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Research Methodology____________________________________________________________________
Receiver Design
Modular Dish Design
Optical Analyses
Experimental Setup
Experimental Analysis
Modular Adjustment
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Current Progress – Receiver Design____________________________________________________________________
• Receiver cavity designed through basic analytical methods.
• The experimental model differed largely from the analytical design.
- Materials were sourced locally, within a budget at the time.- The receiver was manufactured by students.
• This lends itself towards manufacturing simplicity in industry.
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Current Progress – Receiver Design
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Current Progress – Modular Dish Design____________________________________________________________________
In collaboration with Casey Roosendaal (BEng Honours Mechanical)
• Materials for parabolic dish reflectors are not manufactured locally and are required to be imported.
• Parabolic dish reflectors are limited by the fixed geometry.
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Current Progress – Modular Dish Design____________________________________________________________________
In collaboration with Casey Roosendaal (BEng Mechanical Honours)
Air
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Current Progress – Modular Dish Design____________________________________________________________________
• The new design offers an affordable solution that can be locally manufactured.
• The dish reflector consists of multiple smaller dishes that were described in the previous design.
• The dish reflector is considered to be modular since it allows for the parameterisation of the reflector’s effective diameter and effective rim angle.
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Current Progress – Modular Dish Calibration____________________________________________________________________
• The dish is made to face the moon and an image is reflected onto a near Lambertian target surface.
• The image reflected onto the target surface is used to orientate the dish for an optimum interception factor.- Full moon is only necessary if intending to use the
calibration results in an optical analysis.
- The light reflected onto the earth from the moon has a similar angular width to that of the sun.
- No, cooling is required for the target surface.
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Current Progress – Modular Dish Calibration____________________________________________________________________
• An effective dish diameter and rim angle is obtained after calibration.
• The dish setup is intended to hold its shape over night for testing the next day.
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Current Progress – Preliminary Optical Analysis____________________________________________________________________
• In collaboration with Casey Roosendaal.
• Interception factor can be calculated from lunar mapping results (For full moon condition).
• Python’s PIL module – “Python Imaging Library” for image processing.
• Pixel intensity (𝐼𝑥𝑦), is a scaler value describing/relating to the
intensity of light.
𝐼𝑥𝑦 =𝑅𝑥𝑦 + 𝐺𝑥𝑦 + 𝐵𝑥𝑦
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Current Progress – Preliminary Optical Analysis____________________________________________________________________
• Pixel saturation condition:𝐼𝑥𝑦 > 255
• Calibration and analysis conducted using a CANON EOS 400DCamera Settings Values
ISO Setting 100
F number 4.5
Shutter Speed 2’’
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Current Progress – Preliminary Optical Analysis____________________________________________________________________
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Research to Follow____________________________________________________________________
• Challenges:- Mylar sheet reflectivity- Light pollution
• Complete optical analysis – Interception factor, SolTrace etc.
• Analysis of the solar receiver for realistic day light conditions.
• Second Law analysis of receiver to determine collector’s power potential.
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Conclusion____________________________________________________________________
• The research progress made up to current date has been presented.
• A calibration of the modular dish design was conducted.- The smaller dishes were positioned to form a modular dish
with an effective dish diameter of 1600mm and an effective rim angle of 45°.
- Assistance is needed to determine the reflectivity of the mylar sheet.
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Thank You&
Questions?