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Welcome to IgMin Research – an Open Access journal uniting Biology, Medicine, and Engineering. We’re dedicated to advancing global knowledge and fostering collaboration across scientific fields.
At IgMin Research, we bridge the frontiers of Biology, Medicine, and Engineering to foster interdisciplinary innovation. Our expanded scope now embraces a wide spectrum of scientific disciplines, empowering global researchers to explore, contribute, and collaborate through open access.
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Penjiyev Ahmet Myradovich Author at IgMin Research
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Biography
Dr. Penjiyev Ahmet Myradovich is a distinguished scholar and academician specializing in renewable energy, environmental safety, and sustainable agricultural technologies. He holds the titles of Doctor of Technical and Agricultural Sciences and serves as an Associate Professor at the Turkmen State Institute of Architecture and Construction in Ashgabat, Turkmenistan. Additionally, he is an Academician of the International Academy of Sciences of Environmental Safety (IAELPS) and a Corresponding Member of the Russian Academy of Natural Sciences.
Dr. Penjiyev's academic journey began at Turkmen State University, where he earned a degree in Thermophysics in 1978. He then completed his Ph.D. in 1987, focusing on the development and research of trench-type solar greenhouses for cultivating coffee trees. In 2000, he obtained a Doctorate in Agricultural Sciences from Moscow State Forest University, presenting a dissertation on the agrotechnics of growing melon trees in protected soil conditions in Turkmenistan. His third doctoral degree, a Doctor of Technical Sciences, was awarded in 2022 by the Federal Scientific Agroengineering Center All-Russian Institute of Mechanization (VIM) in Moscow, based on his research into the use of renewable energy technologies in Turkmenistan.
Throughout his career, Dr. Penjiyev has authored over 330 scientific publications, including articles, books, and monographs, and holds eight patents. His research interests encompass renewable energy, solar energy, environmental challenges in desert development, and climate change. He has been instrumental in advancing agricultural technologies, such as utilizing non-traditional energy sources and industrial thermal waste for heating greenhouses in Turkmenistan. His work has led to the development of mathematical models for greenhouse microclimates and the creation of nomograms to predict temperature regimes in trench-type greenhouses across various regions of Turkmenistan.
Dr. Penjiyev's contributions to science and education have been recognized with several prestigious awards, including the Lenin Komsomol Prize for scientific work in renewable energy (1991), the M.V. Lomonosov Medal for high professionalism in pedagogical sciences, and the A. Nobel Medal for research in biology, genetics, plant growing, and agriculture. He has also received the N.I. Vavilov Medal and the K.A. Timiryazov Medal for his significant achievements in these fields. His dedication to advancing knowledge and fostering innovation continues to inspire future generations of scientists and engineers.
Research Interest
Dr. Penjiyev Ahmet Myradovich's research interests primarily focus on renewable energy technologies, environmental safety, and sustainable agricultural practices. His work aims to integrate alternative energy sources, particularly solar energy, into agricultural and industrial systems in Turkmenistan. He has extensively studied the development of trench-type solar greenhouses and the use of renewable energy for heating systems, which have applications in desert regions with harsh climates. Additionally, Dr. Penjiyev’s research encompasses climate change and its impact on agricultural practices in arid zones. He has worked on developing mathematical models to optimize greenhouse microclimates and improve the efficiency of water and energy use in agriculture. His work also addresses the challenges of desertification and the sustainable use of resources in extreme environments. Dr. Penjiyev is committed to advancing the science of environmental sustainability by creating innovative solutions that can support both agricultural productivity and environmental preservation.
Open Access Policy refers to a set of principles and guidelines aimed at providing unrestricted access to scholarly research and literature. It promotes the free availability and unrestricted use of research outputs, enabling researchers, students, and the general public to access, read, download, and distribute scholarly articles without financial or legal barriers. In this response, I will provide you with an overview of the history and latest resolutions related to Open Access Policy.
byPenjiyev Ahmet Myradovich and Orazov Parahat Orazmuhamedovich
The article obtained systematized, scientifically substantiated gross, technical, economic, and environmental energy resource potentials from the introduction and use of solar energy technologies. The technical, economic, and environmental priorities of power plants were assessed in terms of energy efficiency, fuel economy, and the environmental impact per square meter from conversion to thermal and electrical energy in the city of Arkadag.The calculated results are, kWh/m2 per year: gross resource potential of solar energy - 1844.6; the techni...cal potential for conversion into thermal and electrical energy is equal to - 1256.44 and 242.44; economic - 502.6 and 96.98 kg fuel equivalent/m2 per year; environmental reduction in emissions of various harmful substances into the environment when using solar photovoltaic modules in the city of Arkadag will be: with annual electricity generation per m2 - 242.44 kW⋅h, annual fuel consumption savings - 96.96 kg. e., the reduction in emissions will be, kg per year: SO2 – 2.0; NOx – 1.1; CO – 0.14; CH4 – 0.29; CO2 – 155.0; solids – 0.21; when converted into thermal energy per m2 and annual production of 1256.4 kW⋅h, annual fuel savings are 502.6 kg of fuel equivalent; emission reduction will be, kg per year: SO2 – 10.4; NOx – 5.6; CO – 0.73; CH4 – 1.53; CO2 – 803.5; solids – 1.1.Empirical equations (1-5) have been obtained taking into account the gross, technical, economic, and environmental resource potentials of solar energy in the city of Arkadag, it is possible to carry out energy and environmental forecasting when drawing up a feasibility study.
Turkmen State Institute of Architecture and Construction
Doctor of Technical and Agricultural Sciences, Academician of the International Academy of Sciences Environmental Safety (IAELPS), Turkmen State Institute of Architecture and Construction, Ashgabat, Turkmenistan