Optimized Bands: A New Design Concept for Concentrating Solar Parabolic Mirrors
نویسندگان
چکیده
Parabolic concentrator mirrors are an important component of many solar energy systems, particularly solar mirror collectors. Precision parabolic mirrors are expensive to fabricate and to transport. Here, a new concept for designing and fabricating precision parabolic mirrors is presented. The mirror is formed from a thin flat very flexible metal sheet with a highly reflective surface. Attached to the rear surface of the mirror sheet is a backbone band whose figure is optimized to form the reflective sheet into a precision parabola when its two ends are pulled toward each other. An analytical model to optimize the shape and thickness of the band is presented. The validity of the concept is demonstrated using Finite Element Analysis and laboratory experiments. The concept would permit flat mirror elements to be easily fabricated and efficiently packaged and shipped to field sites and assembled into the parabolic trough concentrators with potentially substantial costs reductions compared with conventional methods.
منابع مشابه
A New Design Approach for Solar Concentrating Parabolic Dish Based on Optimized Flexible Petals
Lifang Li Ph.D. Candidate School of Mechatronics Engineering Harbin Institute of Technology 150001 Harbin, China. [email protected] Steven Dubowsky Professor Department of Mechanical Engineering Massachusetts Institute of Technology Cambridge, 02139 MA. [email protected] Abstract Large parabolic dish concentrator mirrors are an important component of many solar energy systems. They need to ...
متن کاملSimulation of a New Hybrid Solar and Organic Cycle as a Combined Cooling, Heat and Power (CCHP) Unit in Off Design Condition
In this paper, using parabolic mirrors, a solar field was designed, which was related to a storage tank for a residential complex in the city of Tafresh located in the center of Iran. The design was performed for the existing oils: VP1, THERMINOL 66, THERMINOL 59. Finally, considering an organic cycle with R123 as working fluid and assuming a minimum length required for oil flow rate to reach a...
متن کاملConcentrating Solar Power
DESCRIPTION Concentrating Solar Power (CSP), also referred to as solar thermal power, uses mirrors to concentrate the sun's rays to heat a fluid that is then used to generate electricity, often using conventional steam turbines. There are three primary CSP technologies: parabolic trough, solar tower, and dish engine. The most common CSP system is the parabolic trough, which uses curved mirrors ...
متن کاملA Numerical Investigation on Aerodynamic Coefficients of Solar Troughs Considering Terrain Effects and Vortex Shedding
Recently, increase in the cost of fossil fuels and taking into consideration the environmental effects of exploiting them, caused many researchers and governments to find some ways to make use of renewable energies more cost-effectively. Solar energy is a category of renewable energies which could be harvested via several technologies. One of the most practical methods is using parabolic trough...
متن کاملAdaptive Heliostat Solar Arrays Using Shape-optimized Compliant Mirrors
Li Meng is a visiting-student of Department of Mechanical Engineering at MIT. * Corresponding author, Email: [email protected]. ABSTRACT In a Solar Power Tower (SPT) system, the ideal shape of a heliostat concentrator is a section of paraboloid which is a function of the location in the array and the incidence sun angle. This shape is difficult to achieve and limits the system efficiency. A sh...
متن کامل