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Tatiana Gabderakhmanova was born in Abganerovo, Russia, in 1991. She received the Specialist degree in electrical engineering from the Volgograd State Agrarian University, Volgograd, Russia, in 2013 and the Ph.D. degree in electrical engineering from the Joint Institute for High Temperatures of the Russian Academy of Sciences, Moscow, Russia, in 2019. She has been with the Technical University of Denmark since 2019 as postdoc in the Distributed Energy Resources research group of the Center for Electric Power and Energy (CEE). Her research interests include modelling and aggregation of electric vehicles, batteries, and distributed energy resources in multi-energy systems as well as microgrid operation and control.
Biogas plants may support the transformation towards renewable-based and integrated energy systems by providing dispatchable co-generation as well as opportunities for biogas upgrading or power-to-X conversion. In this paper, a simulation model that comprises the main dynamics of the internal processes of a biogas plant is developed. Based on first-order kinetics of the anaerobic digestion process, the biogas production of an input feeding schedule of raw material can be estimated. The output of the plant in terms of electrical and thermal energy is validated against empirical data from a 3-MW biogas plant on the Danish island of Bornholm. The results show that the model provides an accurate representation of the processes within a biogas plant. The paper further provides insights on the functioning of the biogas plant on Bornholm as well as discusses upgrading potentials of biogas to biomethane at the plant from an energy perspective.
Jan Zepter; Jan Engelhardt; Tatiana Gabderakhmanova; Mattia Marinelli. Empirical Validation of a Biogas Plant Simulation Model and Analysis of Biogas Upgrading Potentials. Energies 2021, 14, 2424 .
AMA StyleJan Zepter, Jan Engelhardt, Tatiana Gabderakhmanova, Mattia Marinelli. Empirical Validation of a Biogas Plant Simulation Model and Analysis of Biogas Upgrading Potentials. Energies. 2021; 14 (9):2424.
Chicago/Turabian StyleJan Zepter; Jan Engelhardt; Tatiana Gabderakhmanova; Mattia Marinelli. 2021. "Empirical Validation of a Biogas Plant Simulation Model and Analysis of Biogas Upgrading Potentials." Energies 14, no. 9: 2424.
This paper introduces a novel design of an electric vehicle (EV) fast charging station, consisting of a battery energy storage system (BESS) with reconfigurable cell topology. The BESS comprises two battery strings that decouple the power flow between EV and grid, to enable charging powers above the grid capacity. The reconfigurable design is achieved by equipping the battery cells with semiconductor switches and serves two main purposes. First, it aims at solving cell unbalance issues to increase safety, reliability, and lifetime of the battery. Second, it enables the BESS to actively control the EV charging process by changing its cell configuration in a real-time fashion, making a DC-DC converter redundant. The paper presents a modelling approach that captures the reconfigurable design including the controlling algorithm used for cell engagement. The simulation results show that the BESS is able to fulfil the EV request with sufficient accuracy for most of the fast charging process. However, the switching of cells leads to variations in the charging current that can potentially exceed the tolerance band defined in IEC61851-23. Therefore, complementary measures are suggested to achieve a suitable current control during all phases of the charging process. The estimated BESS efficiency during the EV fast charging process is
Jan Engelhardt; Jan Zepter; Tatiana Gabderakhmanova; Gunnar Rohde; Mattia Marinelli. Double-String Battery System with Reconfigurable Cell Topology Operated as a Fast Charging Station for Electric Vehicles. Energies 2021, 14, 2414 .
AMA StyleJan Engelhardt, Jan Zepter, Tatiana Gabderakhmanova, Gunnar Rohde, Mattia Marinelli. Double-String Battery System with Reconfigurable Cell Topology Operated as a Fast Charging Station for Electric Vehicles. Energies. 2021; 14 (9):2414.
Chicago/Turabian StyleJan Engelhardt; Jan Zepter; Tatiana Gabderakhmanova; Gunnar Rohde; Mattia Marinelli. 2021. "Double-String Battery System with Reconfigurable Cell Topology Operated as a Fast Charging Station for Electric Vehicles." Energies 14, no. 9: 2414.
Tatiana Gabderakhmanova; O. S. Popel. Competitiveness Analysis Results for Photovoltaic Microgeneration Systems in the Russian Federation. Doklady Physics 2019, 64, 245 -248.
AMA StyleTatiana Gabderakhmanova, O. S. Popel. Competitiveness Analysis Results for Photovoltaic Microgeneration Systems in the Russian Federation. Doklady Physics. 2019; 64 (6):245-248.
Chicago/Turabian StyleTatiana Gabderakhmanova; O. S. Popel. 2019. "Competitiveness Analysis Results for Photovoltaic Microgeneration Systems in the Russian Federation." Doklady Physics 64, no. 6: 245-248.
Diesel or gasoline engine cold cranking is a serious problem for different vehicle operation in northern countries. The engine starting torque is usually provided by an on-board electrochemical battery represented by a lead-acid unit. Modern energy storage devices, such as supercapacitors (SCs), lithium-ion, nickel-cadmium (NiCd) and nickel-metal hydride (NiMH) batteries react differently on low temperatures. Moreover, capacity losses also occur. Considering wide applications of such storage devices in electrical vehicles, their behaviour at low temperatures is of interest. Physical simulation of storage battery cold cranking was carried out using a climate chamber. Lithium-ion, NiCd, NiMH and lead-acid batteries were tested individually and paired with a SC unit to generate a power impulse for engine cranking. A number of experiments (up to five) for each type of storage devices were taken. The best performance results both for direct and hybrid cranking simulation were showed by LiFePO4-based and Ni-Cd batteries. The SC module itself showed the best performance, but its specific energy capacity cost is too high to have a large battery system based on SCs only. In this case a combined storage could give enough power to fulfill cranking demands.
Alexey B. Tarasenko; Tatiana S. Gabderakhmanova; Sophia V. Kiseleva; Musi J. Suleymanov. Cold engine cranking by means of modern energy storage devices - physical simulation. MATEC Web of Conferences 2018, 178, 1 .
AMA StyleAlexey B. Tarasenko, Tatiana S. Gabderakhmanova, Sophia V. Kiseleva, Musi J. Suleymanov. Cold engine cranking by means of modern energy storage devices - physical simulation. MATEC Web of Conferences. 2018; 178 ():1.
Chicago/Turabian StyleAlexey B. Tarasenko; Tatiana S. Gabderakhmanova; Sophia V. Kiseleva; Musi J. Suleymanov. 2018. "Cold engine cranking by means of modern energy storage devices - physical simulation." MATEC Web of Conferences 178, no. : 1.
The paper presents a methodical approach to step-by-step analysis of the agricultural waste resource potential for energy-deficient territories. On an example of model region of Russia (the Volgograd area) the estimation of agroindustrial complex waste energy potential showed that technical potential of waste only in the plant growing of the region is 10 times higher than the consumption of electricity by the rural areas of the region. In addition, the transformation of chemical bonds of crop waste into electrical energy could prevent the release of 1.86 million tons of CO2 per year for the region.
Tatiana I. Andreenko; Tatiana S. Gabderakhmanova. Energy potential from biomass wastes analysis at the regional level. MATEC Web of Conferences 2018, 178, 1 .
AMA StyleTatiana I. Andreenko, Tatiana S. Gabderakhmanova. Energy potential from biomass wastes analysis at the regional level. MATEC Web of Conferences. 2018; 178 ():1.
Chicago/Turabian StyleTatiana I. Andreenko; Tatiana S. Gabderakhmanova. 2018. "Energy potential from biomass wastes analysis at the regional level." MATEC Web of Conferences 178, no. : 1.
This paper focuses on estimation of demanded photovoltaic (PV) array areas and capital expenses to feed a reverse osmosis desalination unit (1 m3/day fresh water production rate). The investigation have been made for different climatic conditions of Russia using regional data on ground water salinity from different sources and empirical dependence of specific energy consumption on salinity and temperature. The most optimal results were obtained for Krasnodar, Volgograd, Crimea Republic and some other southern regions. Combination of salinity, temperature and solar radiation level there makes reverse osmosis coupled with photovoltaics very attractive to solve infrastructure problems in rural areas. Estimation results are represented as maps showing PV array areas and capital expenses for selected regions.
A B Tarasenko; S V Kiseleva; V P Shakun; T S Gabderakhmanova. Estimation of solar energy resources for low salinity water desalination in several regions of Russia. Journal of Physics: Conference Series 2018, 946, 012036 .
AMA StyleA B Tarasenko, S V Kiseleva, V P Shakun, T S Gabderakhmanova. Estimation of solar energy resources for low salinity water desalination in several regions of Russia. Journal of Physics: Conference Series. 2018; 946 (1):012036.
Chicago/Turabian StyleA B Tarasenko; S V Kiseleva; V P Shakun; T S Gabderakhmanova. 2018. "Estimation of solar energy resources for low salinity water desalination in several regions of Russia." Journal of Physics: Conference Series 946, no. 1: 012036.
This paper is devoted to calculation of yearly energy production, demanded area and capital costs for first Russian 5 MW grid-tie photovoltaic (PV) plant in Altay Republic that is named Kosh-Agach. Simple linear calculation model, involving average solar radiation and temperature data, grid-tie inverter power-efficiency dependence and PV modules parameters is proposed. Monthly and yearly energy production, equipment costs and demanded area for PV plant are estimated for mono-, polycrystalline and amorphous modules. Calculation includes three types of initial radiation and temperature data—average day for every month from NASA SSE, average radiation and temperature for each day of the year from NASA POWER and typical meteorology year generated from average data for every month. The peculiarities for each type of initial data and their influence on results are discussed.
T S Gabderakhmanova; S V Kiseleva; S E Frid; A B Tarasenko. Energy production estimation for Kosh-Agach grid-tie photovoltaic power plant for different photovoltaic module types. Journal of Physics: Conference Series 2016, 774, 012140 .
AMA StyleT S Gabderakhmanova, S V Kiseleva, S E Frid, A B Tarasenko. Energy production estimation for Kosh-Agach grid-tie photovoltaic power plant for different photovoltaic module types. Journal of Physics: Conference Series. 2016; 774 ():012140.
Chicago/Turabian StyleT S Gabderakhmanova; S V Kiseleva; S E Frid; A B Tarasenko. 2016. "Energy production estimation for Kosh-Agach grid-tie photovoltaic power plant for different photovoltaic module types." Journal of Physics: Conference Series 774, no. : 012140.
Рассмотрены преимущества и недостатки электрохимических накопителей электроэнергии различных типов, определяющих сферы их применения. Представлены результаты расчетно-аналитических исследований экономической эффективности различных технологий аккумулирования электроэнергии в схемах фотоэлектрических станций и бесперебойных источников питания. Показано, что при частых зарядах и разрядах накопителя энергии оптимальными вариантами являются литий-железофосфатные аккумуляторы и ванадиевые окислительно-восстановительные накопители. В случае источника бесперебойного питания целесообразно комплектовать устройство герметизированными свинцово-кислотными аккумуляторами.
Tatiana Gabderakhmanova; L. B. Director; O. S. Popel; Array Б. Тарасенко. COMPARATIVE ANALYSIS OF ELECTROCHEMICAL ENERGY STORAGE DEVICES. Alternative Energy and Ecology (ISJAEE) 2016, 184 -195.
AMA StyleTatiana Gabderakhmanova, L. B. Director, O. S. Popel, Array Б. Тарасенко. COMPARATIVE ANALYSIS OF ELECTROCHEMICAL ENERGY STORAGE DEVICES. Alternative Energy and Ecology (ISJAEE). 2016; (23):184-195.
Chicago/Turabian StyleTatiana Gabderakhmanova; L. B. Director; O. S. Popel; Array Б. Тарасенко. 2016. "COMPARATIVE ANALYSIS OF ELECTROCHEMICAL ENERGY STORAGE DEVICES." Alternative Energy and Ecology (ISJAEE) , no. 23: 184-195.
В работе рассмотрены особенности развития возобновляемой энергетики в Арктической зоне Российской Федерации (АЗРФ).Приведены результаты оценок ресурсов, а также валового и технического потенциала энергии солнца, ветра и отходов лесной и деревообрабатывающей промышленности на территории АЗРФ. Детальные карты распределения ресурсов солнца и ветра позволяют выявить перспективные для внедрения возобновляемой энергетики регионы.Проанализирована структура и диапазоны потребляемой мощности потенциальных потребителей от автономных источников энергии в регионе. Подготовлена база данных действующих и проектируемых объектов на основе ВИЭ в АЗРФ, позволяющая оценить объем введенных мощностей с детализацией по типу используемых ресурсов и степень замещения топливной энергетики на возобновляемую.Построенные по результатам исследований карты введены в состав ГИС ВИЭ РФ и в совокупности представляют собой удобный инструмент для проведения предварительных оценок возможности и необходимости проектирования установок на основе ВИЭ.Приведены требования, предъявляемые к конструктивному исполнению фотоэлектрических установок для надежной работы в регионе. Изложены особенности эксплуатации различных видов накопителей электрической энергии, выявленные в результате экспериментальных исследований, которые должны быть учтены при проектировании установок на основе ВИЭ в условиях Арктики.
Tatiana Gabderakhmanova; Array В. Киселева; Array С. Попель; Array Б. Тарасенко. Some Aspects of Renewable Energy Development in the Arctic Zone of the Russian Federation. Alternative Energy and Ecology (ISJAEE) 2016, 41 -53.
AMA StyleTatiana Gabderakhmanova, Array В. Киселева, Array С. Попель, Array Б. Тарасенко. Some Aspects of Renewable Energy Development in the Arctic Zone of the Russian Federation. Alternative Energy and Ecology (ISJAEE). 2016; (19-20):41-53.
Chicago/Turabian StyleTatiana Gabderakhmanova; Array В. Киселева; Array С. Попель; Array Б. Тарасенко. 2016. "Some Aspects of Renewable Energy Development in the Arctic Zone of the Russian Federation." Alternative Energy and Ecology (ISJAEE) , no. 19-20: 41-53.
В работе изложены некоторые результаты мониторинга автономной фотоэлектрической установки за двухлетний период эксплуатации. Приводятся основные принципы функционирования и состав системы мониторинга экспериментальной фотоэлектрической установки, а также перечень регистрируемых параметров. Показаны результаты верификации (сравнения) данных о солнечной радиации из базы данных NASA SSE и значений суммарной солнечной радиации, приходящей на приемную поверхность фотоэлектрических модулей, полученных в ходе опытной эксплуатации ФЭУ на площадке научно-исследовательской лаборатории ВИЭ МГУ в течение 2013–2014 гг. Описаны характеристики использованной в работе инженерной методики, предназначенной для оценки производительности фотоэлектрической установки; проведено сравнение расчетных результатов с экспериментальными, подтверждающее адекватность применения методики. Рассмотрены некоторые аспекты опытной эксплуатации ФЭУ, имеющие существенное значение для функционирования систем мониторинга и эксплуатации ФЭУ.
Tatiana Gabderakhmanova; S. V. Kiseleva; S. I. Zaytsev; A. B. Tarasenko; V. P. Shakun. USE OF SOLAR PHOTOVOLTAIC SYSTEMS: MONITORING AND PERFORMANCE EVALUATION RESULTS. Alternative Energy and Ecology (ISJAEE) 2015, 48 -54.
AMA StyleTatiana Gabderakhmanova, S. V. Kiseleva, S. I. Zaytsev, A. B. Tarasenko, V. P. Shakun. USE OF SOLAR PHOTOVOLTAIC SYSTEMS: MONITORING AND PERFORMANCE EVALUATION RESULTS. Alternative Energy and Ecology (ISJAEE). 2015; (19):48-54.
Chicago/Turabian StyleTatiana Gabderakhmanova; S. V. Kiseleva; S. I. Zaytsev; A. B. Tarasenko; V. P. Shakun. 2015. "USE OF SOLAR PHOTOVOLTAIC SYSTEMS: MONITORING AND PERFORMANCE EVALUATION RESULTS." Alternative Energy and Ecology (ISJAEE) , no. 19: 48-54.