Structural and topology optimization of steel construction profiles in solar energy systems

Year 2023, Volume: 7 Issue: 4, 285 - 295, 20.12.2023

Cengiz Bayram , Ercan Köse

https://doi.org/10.26701/ems.1388159

Abstract

In recent years, significant investments have been made for Solar Power Plants (SPP) plants in many countries. The installation costs of SPP plants are quite high. This situation increases the amortization period of investments. Lowering these costs during the installation phase will pave the way for more investments. One of the most important cost items of Solar Power Plants (SPP) is steel construction costs. In this study, it is aimed to reduce the cost by designing the best performance product by reducing the weight of C profiles, one of the steel constructions used during the installation of solar panels, with shape and topology methods. The results obtained show that shape and topological optimization can provide significant gains in terms of cost.

Keywords

Optimization, Structural and Topology Optimization, Steel Construction Profiles In Solar Energy Systems

References

• [1] Yang, R.J., Chuang, C.H. (1993). Optimal topology design using lineer programming. Structural Optimization. 68: 265-290.
• [2] Bendsoe, M.P., Kikuchi, N. (1988). Generating optimal topologies in structural design using a homogenization method. Computational Methods Application Mechanics Engineering, 71(2): 197-224.
• [3] Albak, E.İ. (2019). Optimum Design of Brake Pedal Using Topology Optimization Method Intended for Weight Reduction on The Formula SAE Car. International Journal of Engineering Research and Development, 11(1): 328 – 334.
• [4] Şen, Ş., Yaşar, M., Koçar, O. (2018). Stress Distribution Analysis and Topology Optimization for Semi-Trailer. Karaelmas Science and Engineering Journal,  8(1): 309-316.
• [5] Doğru, M.H. (2019). Topology optimization of truck chassis under multi loading conditions. El-Cezeri, 6(3): 856-867.
• [6] Rajappan, R., Vivekanandhan, M. (2013). Static and modal analysis of chassis by using FEA. International Journal of Engineering and Science, 2(2): 63-73.
• [7] Kahraman, F., Küçük, M. (2020). A Research on Weight Reduction Application with Topology Optimization in the Automotive Industry. European Journal of Science and Technology, 20: 623-631.
• [8] Özsoy, K., Şentürk, E., Aydoğan, D., Korucu, Ö.E. (2020). Topology Optimization For 3D Printer Technology: A Study On The N95 Mask, Turkish Journal of Nature and Science, 9(Special Issue): 152-159.
• [9] Topaç, M.M., Özmen, B., Deryal, U., Selbes, O. (2019). Design of an Independent Suspension for a Special Type Semi-Trailer: Conceptual Design Studies. Journal of Polytechnic, 22 (1): 95-102.
• [10] Bendsoe, M. P., Sigmund, O. (2003). Topology optimization: theory, methods, and applications. Springer Science & Business Media.
• [11] Duddeck, F. (2008). Multidisciplinary optimization of car bodies. Structural and Multidisciplinary Optimization, 35: 375-389.
• [12] Volz, K.H., Zimmer, H. (2007) Optimizing Topology and Shape for Crashworthiness in Vehicle Product Development, IABC International Automotive Body Congress, Berlin.
• [13] Yüksel, O. (2019). An overview on topology optimization methods employed in structural engineering. Kırklareli University Journal of Engineering and Science, 5(2): 159-175.
• [14] Kazakis, G., Kanellopoulos, I., Sotiropoulos, S., Lagaros, N.D. (2017). Topology optimization aided structural design: Interpretation, computational aspects and 3D printing. Heliyon, 3(10), e00431.
• [15] Mortazavi, A. (2019). The performance comparison of three metaheuristic algorithms on the size, layout and topology optimization of truss structures. Mugla Journal of Science and Technology, 5(2): 28-41.
• [16] Dener, B. (2021). Reducing mass of collision absorber construction using structural optimization methods, PhD. Thesis, Bursa Uludag University, Bursa-Turkey.
• [17] Top, N., Gökçe, H., Şahin, İ. (2019). Topology Optimization for Additive Manufacturing: An Application on Hand Brake Mechanism. Journal of Selcuk-Technic, 18(1): 1-13.
• [18] Okudan, A., (2018, 6 Eylül). The information on Topoloji Optimizasyonu was obtained on August 9, 2020, from the following website: “https://tr.linkedin.com/pulse/topoloji-optimizasyonu-101-ahmet-okudan.”
• [19] Öğüçlü, Ö., Yıldırım, Ç.Y., Weight reduction application with topology optimization in recycling machines.
• [20] SOLIDWORKS Web Help, <Help.solidworks.com>, January 16, 2023.
• [21] Solaravm.com, <solaravm.com>, January 20, 2023.
• [22] Solarcelik.com, <solarcelik.com/solar- steel-profiles-price-list >, January 17, 2023.