Development of a Web Application for Predictive Accounting of Energy Resources
Development of a Web Application for Predictive Accounting of Energy Resources |
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| © 2023 by IJETT Journal | ||
| Volume-71 Issue-3 |
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| Year of Publication : 2023 | ||
| Author : Andrei Melekhin |
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| DOI : 10.14445/22315381/IJETT-V71I3P226 | ||
How to Cite?
Andrei Melekhin, "Development of a Web Application for Predictive Accounting of Energy Resources," International Journal of Engineering Trends and Technology, vol. 71, no. 3, pp. 252-260, 2023. Crossref, https://doi.org/10.14445/22315381/IJETT-V71I3P226
Abstract
To obtain statistical data on the production and consumption of energy resources, their processing and forecasting in individual and central heating points and boiler houses, technical accounting is required, providing tools for the effective operational management of energy resources. The author has developed an algorithm for creating an automated energy accounting system (standard, calculation, forecast). The forecast characteristic of the annual thermal energy consumption is obtained based on a regressive equation and can be applied to various types of buildings. Based on this algorithm, an engineering calculator has been developed for an automated energy accounting system (standard, calculation, forecast). DHTML programming was used as an implementation of the calculation algorithm.
Keywords
Technical and economic algorithms, Predictive accounting of energy resources, Web applications, Correlation analysis, Neural network.
References
[1] Gunisetti Tirupathi Rao, and Rajendra Gupta, “An approach of Clustering and analysis of Unstructured Data,” SSRG International Journal of Computer Science and Engineering, vol. 6, no. 11, pp. 64-69, 2019. CrossRef | Publisher Link
[2] Jun LI, and Shang Xiang, “Intelligent Control of Urban Fresh Agricultural Products Supply Chain using Big Data and Internet of Things,” SSRG International Journal of Computer Science and Engineering, vol. 7, no. 9, pp. 1-6, 2020. CrossRef | Publisher Link
[3] Ivan Oropeza-Perez, “Development of a Cooling-Load Calculator for the Mexican Conditions of Climate, Construction and Occupancy,” Procedia Engineering, vol. 205, pp. 1115-1122, 2017. Google Scholar | CrossRef | Publisher Link
[4] Abdulkhaev Zokhidjon Erkinjonovich et al., “Heat Calculations of Water Cooling,” International Journal of Advanced Research in Science, Communication and Technology, vol. 2, no. 1, pp.173-176, 2021. Google Scholar | CrossRef | Publisher Link
[5] Ronald E. Rondon et al., “Transcriptional Programming Using Engineered Systems of Transcription Factors and Genetic Architectures,” Nature Communications, vol. 10, no. 4784, p. 13, 2019. Google Scholar | CrossRef | Publisher Link
[6] Miri Weiss Cohen, Michael Aga, and Tomer Weinberg, “Genetic Algorithm Software System for Analog Circuit Design,” Procedia CIRP, vol. 36, pp. 17-22, 2015. Google Scholar | CrossRef | Publisher Link
[7] Shengao Wang, Fuxing Han, and Qi Bing, “Application of In-situ Stress Calculation in Engineering,” IOP Conference Series: Earth and Environmental Science, vol. 660, pp. 1-5, 2020. Google Scholar | CrossRef | Publisher Link
[8] H. Wendes, HVAC Procedures and Forms Manual, 2nd edition, River Publishers, pp.97-104, 2020.
[9] Jeff Kuo, Air Pollution Control Engineering for Environmental Engineers, 1st Edition, CRC Press, Routledge, p. 16, 2018.
[10] Leslie Gordon, “Automating Engineering Calculations,” Machine Design, vol. 81, pp. 50-52, 2009. Publisher Link
[11] Sarlan Aliza et al., “The Integration of Engineering Calculations: ENGIEPRO,” Advanced Science Letters,. vol. 23. no. 11. pp. 10709-10714. 2017. Google Scholar | CrossRef | Publisher Link
[12] Guodong Zhu, and Binan Shou, “Thermal-Structure Analysis and Engineering Calculation for Double Tubesheets of Heat,” ASME American Society of Mechanical Engineers, 2015. Google Scholar | CrossRef | Publisher Link
[13] Elzbieta Gawronska et al., “Engineering Calculations for Complex Geometric Domains,” Proceedings MATEC Web of Conferences, vol. 157, 2018. Google Scholar | CrossRef | Publisher Link
[14] Noor Maricar Maricar, “Industrial Energy Audit Web Application using Data Mining Model,” IEEE GCC Conference, pp. 1-6, 2006. Google Scholar | CrossRef | Publisher Link
[15] Richard H. Byrd, Engineering Mathematics, Russian Federation: DMK Press, 2017.
[16] Sergey A. Sheptunov et al., “Simulation of Thermoset Heat Conductivity by Means of Artificial Neural Networks,” IEEE International Conference, Quality Management, Transport and Information Security, Information Technologies, pp. 482-486, 2018. Google Scholar | CrossRef | Publisher Link
[17] P.Sundar, and A.Santhi, “Thermal Energy Storage in Building Using Phase Change Materials(PCMS),” SSRG International Journal of Thermal Engineering, vol. 1, no. 2, pp. 27-32, 2015. CrossRef | Publisher Link
[18] Abuelzein O. A., “The Impact of Shading device on Energy Consumption in the Hot-Humid climate of Saudi Arabia,” SSRG International Journal of Civil Engineering, vol. 7, no. 8, pp. 3-14, 2020. Google Scholar | CrossRef | Publisher Link
[19] Eric Meyer, and Estelle Weil, CSS: The Definitive Guide: Visual Presentation for the Web, 4th Edition, O’Reilly, 2017.
[20] Jon Duckett, Beginning Web programming with HTML, XHTML and CSS, Wrox, 2008.
[21] S. I. Solodushkin, and I. F. Yumanova, Web and DHTML, Russian Federation: Ural University Press, 2018.
[22] Ben Frain, Responsive Web Design with HTML5 and CSS3, Packt Publishing, 2012.
[23] Andrey A Melekhin, “Development of Technical and Economic Calculation Algorithms for Calculators of Engineering Systems,” MISI – MGSU Publishing House, no. 7, pp. 859, 2021. Publisher Link
[24] Zakiyyu Muhammad Sarkinbaka, and Aliyu Buba Ngulde, “Advances on Process Heat Utilization: Systemic Review,” International Journal of Recent Engineering Science, vol. 9, no. 4, pp. 1-8, 2022. Google Scholar | CrossRef | Publisher Link