The results will provide insights into a better understanding on inherent technical aspects of different CSP technologies. Sensitivity of three CSP technologies to the deployment locations and the overall optical-error magnitude is also examined through annual performance analysis. It is also shown that a dramatic cost reduction is required for the selected linear Fresnel technology to be competitive in the future energy market. The selected central-receiver technology provides the most consistent seasonal production profile over the course of the year due to its two-axis-tracking ability but would suffer most from the increasing solar collector optical error. The parabolic trough has the highest optical performance among all. Using China Lake (California) as an example, the annual optical efficiency is 60% for the selected parabolic trough collector, 52% for the selected central-receiver technology, and 40% for the selected linear Fresnel collector. The efficiency over a one-year period is then analyzed based on ray-tracing more » results. The ray-tracing algorithm is used to calculate a collector's design-point performance as well as its incidence-angle modifiers to evaluate the collector performance at any sun position during a typical meteorological year.
#Soltrace academy software#
Optical models are implemented in SolTrace, which is ray-tracing software developed at the National Renewable Energy Laboratory.
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This study presents a detailed optical comparison between three representative CSP collector designs including linear Fresnel, parabolic trough, and central-receiver technologies. Invention named “A CONCENTRATED SOLAR PV THERMAL ENERGY SYSTEM” filed 2014.The optical performance of a concentrating solar power (CSP) collector is critical to the overall efficiency of the system.‘Fluid and Turbo Machinery’ of Mahalakshmi publishing house, Kolhapur.“Review on Biodiesel”, National Level Conference at PVPIT, Budhgaon.“Design and Development of Lightweight Plane Focus Solar Concentrator”, International Conference on Modern Era Research in Mechanical Engineering, 2017.“self Optimization of Solar System through Quality Circle Approach as a Research Tool ”, International Conference on Transformation in Engineering Education,2017.“self-learning based modular course -A NovalApproch Towards Enhancing Self Learning Ability of Students”, International Conference on Transformation in Engineering Education,2016.“ Automatic headlight beam control system”, an international conference on Electrical, Electronics and data communication,2015.“Development of advanced material for anticorrosive heat exchanger”, International conference at JJJMCOE, Jaysingpur, 2011-12.(H-Index 22, sci listed Journal)ī) Publications /Presentation(in peer-reviewed conferences held in India) More, "Analysis of compound parabolic through concentrator for diagnosis of flux distribution on receiver," Journal of Photonics for Energy 9(1), 018501 (5 February 2019). Supriya More, Mathematical Modeling and “ Analysis of Compound Parabolic Concentrator Using SolTrace, International Journal of Mechanical Engineering and Technology, Vol 9, Issue 6, 2018, pp 113-121.(H- Index- 10 Sci listed Journal)
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