TY - GEN A1 - Abbasov, Ilgar A1 - Aliyev, Rezo A1 - Mammadov, Arastun A1 - Suleymanov, Mahabbat A1 - Mammadov, Huseyn ED - Valiyev, Vilayat ED - Namazov, Subhan ED - Yusubov, Nizami ED - Simon, Sylvio T1 - Investigation of the influences on energy consumption during turning and its modelling T2 - Reliability : Theory and Applications N2 - This article examines the interrelationships between technological parameters, including cutting speed, feed rate, and depth of cut, and their influence on average power consumption. A statistical design of experiments was employed with the objective of developing a model that would enable a quantitative and qualitative description of the interactions in question. The insights yielded by these analyses facilitate the optimisation of energy consumption during the turning process, thereby reducing the environmental impact of the manufacturing process. In order to identify the optimal process parameters, preliminary experiments were conducted under three distinct conditions: dry, coolant lubricants, and idle. Furthermore, restrictions were defined with regard to rough and finish turning. At the same time the study examines the influence of minimum quantity lubrication on energy consumption, thus providing further insights into the domain of energy-efficient machining. KW - Energy efficien KW - Turning KW - Cutting parameter KW - Estriction KW - Design of experiments KW - Coolant lubricants Y1 - 2025 UR - https://gnedenko.net/Journal/2025/SI_072025/RTA_SI072025-036_36+8-b6-18-p288.pdf U6 - https://doi.org/10.24412/1932-2321-2025-783-288-296 SN - 1932-2321 VL - 20 IS - Special Issue 7 (83) SP - 288 EP - 296 PB - Gnedenko Forum CY - Medford MA; USA ER - TY - CHAP A1 - Shvetz, Vasily A1 - Palekhova, Ludmila A1 - Simon, Sylvio A1 - Palekhov, Dmitry A1 - Mammadov, Arastun ED - Kovalev, Roman T1 - Convergence of Energy Efficiency Policies in the EU and Countries with Economies in Transition T2 - Socio-Economic and Environmental Problems of the Mining Industry, Construction and Energy Sector, 11th International Conference on Problems the Mining Industry, Construction and Energy Sector, Tula State University, Russian Federation, 5-6 November 2015 N2 - This article reviews the contemporary EU model for energy efficiency, analyses issues related to transformation of energy policy towards sustainability in the post-Soviet countries, and discusses the problems of energy efficiency in Germany, Russia, Ukraine and Azerbaijan. KW - energy policy of the European Union KW - sustainable energy policies KW - energy efficiency KW - sustainable development KW - potential of sustainable energy KW - energy policy of countries with economies in transition Y1 - 2015 UR - http://kadastr.org/files/conf/conf-2015.pdf SN - 978-5-7679-3246-7 SP - 398 EP - 405 PB - Tula State University CY - Tula ER - TY - GEN A1 - Simon, Sylvio A1 - Fraňa, Karel A1 - Neubert, Christian A1 - Mammadov, Arastun A1 - Amirov, Fariz ED - Atluri, Satya N. ED - Vušanović, Igor T1 - A Flow Study in the Cyclone with Particle Separations T2 - Computational and Experimental Simulations in Engineering, Proceedings of ICCES 2020. Volume 1 N2 - Unsteady turbulent flows with solid particles of different sizes in the cyclone were studied numerically and experimentally. The grid studies and influence of the boundary condition prescription on the flow behavior in the cyclone and the effectiveness of the particle separation were studied firstly numerically. The turbulent flow was calculated by means of Large Eddy Simulations and this flow problem was calculated parallel using eight processors. It was found theoretically that pressure at the bottom outlet of the cyclone has a significant impact on the particle separation. This impact of the pressure at the cyclone function was examined also using experiments and pressure distributions for different flow rate intensities for several locations in the cyclone were determined. These experimental results can be used for a validation of numerical results. Furthermore, the larger losses were observed in the immersion tube due to higher flow velocity and impulse exchange in the vortex core. KW - Cyclone flows KW - Particle separations KW - Pressure distributions Y1 - 2020 SN - 978-3-030-64689-9 SN - 978-3-030-64690-5 U6 - https://doi.org/10.1007/978-3-030-64690-5_6 SN - 2211-0984 SN - 2211-0992 VL - Mechanisms and Machine Science SP - 52 EP - 59 PB - Springer CY - Cham ET - 1. Auflage ER - TY - GEN A1 - Amirli, Samir A1 - Fritzsche, Pascal Dirk A1 - Abbasov, Ilgar A1 - Wichmann, Steffen A1 - Simon, Sylvio A1 - Amirov, Fariz A1 - Mammadov, Arastun T1 - The İmpact of High Speed Mechanical Processing Efficiency on the Production Process T1 - Влияние высокоскоростной механической обработки на производственный процесс T2 - HERALD of the Azerbaijan Engineering Academy N2 - The main purpose of the article is to increase productivitiy, reduce processing time and the same time increase the cutting speed. The results are also displayed in Excel using a number of cutting parameters. For this purpose, the article shows the results of both high-speed milling and high-speed turning of a machine with different types of tools, as well as processing of one tool on different types of machines. Unlike other machines, in general, the work on the machines of universal processing centers turned out to be more productive. The feed rate of the machine tools is the focus area here. If we increase cutting values, then the tool life is reduced and that leads to higher tool costs. With universal high-performance machines we cannot save costs for tools (we can only save machine tool costs). Compared to universal high-performance machines, we can save tool costs with Universal Machining Center. Therefore, it is suggested to the machining with the universal machining center, although the machining time and cutting time is faster with the universal high-performance machine. N2 - В статье показаны результаты как высокоскоростной фрезерной, так и высокоскоростной токарной обработки станка с разными типами инструментов, а также обработки одного инструмента на разных типах станков. В отличие от других станков, работа на станках универсальных обрабатывающих центров оказалась более производительной. В центре внимания здесь скорости подачи станков. Если мы увеличиваем параметры резания, то срок службы инструмента снижается, что приводит к увеличению затрат на инструмент. С универсальными высокопроизводительными станками мы не можем сэкономить на инструментах (мы можем сэкономить только на станках). По сравнению с универсальными высокопроизводительными станками, мы можем сэкономить на инструментальных средствах с помощью универсального обрабатывающего центра. Поэтому рекомендуется выполнять обработку на универсальном обрабатывающем центре, хотя время обработки и время резки меньше на универсальном высокопроизводительном станке. KW - Energy efficiency KW - High speed mechanical processing KW - Production KW - Neseff Y1 - 2022 U6 - https://doi.org/10.52171/2076-0515_2022_14_01_41_51 SN - 2076-0515 SN - 2789-8245 VL - 14 IS - 1 SP - 41 EP - 51 ER -