Іhоr Khmyrov scite author profile

Іhоr Khmyrov

5Publications

25Citation Statements Received

47Citation Statements Given

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National University of Civil Defense of Ukraine

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Development of a technique for restoring the efficiency of film ITO/CdS/CdTe/Cu/Au SCs after degradation

Deyneko

Kovalev

Semkiv

et al. 2019

EEJET

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Проведено дослiдження впливу прямої полярностi на вихiднi параметри сонячних елементiв (СЕ) ITO/CdS/CdTe/Cu/Au. Експериментально зафiксовано вплив електричного поля прямої полярностi на вихiднi параметри i свiтловi дiоднi характеристики СЕ ITO/CdS/CdTe/Cu/Au, у яких вiдбулася деградацiя ККД. При витримцi затемненого СЕ не менше 120 хвилин в електричному полi, наведеним зовнiшньою постiйною напругою величиною (0,5-0,9) В, спостерiгається зростання ККД. Полярнiсть електричного поля повинна вiдповiдати прямому змiщенню n-p гетеропереходу. Зростання ККД спостерiгається лише у тому випадку, якщо при деградацiї приладової структури не встигли сформуватися дефекти, якi за вказаний час витримки призводять до самовiдновлюючих електричних мiкропробоїв, що чередуються. Встановлено, що зростання ККД вiдбувається за рахунок збiльшення густин фотоструму, зменшення послiдовного та збiльшення шунтувального опорiв СЕ. Покращення дiодних характеристик вiдбувається завдяки кiльком фiзичним процесам. При подачi на СЕ напруги прямого змiщення, всерединi диодной структури СЕ створюється електричне поле, яке пiдсилює вбудоване електричне поле тильного р-р + гетероперехода i пригнiчує вбудоване електричне поле фронтального n + -p гетероперехода. Це вiдбувається внаслiдок того, що дiоди включенi на зустрiч один одному. Величина напруги прямого змiщення не повинна перевищувати висоту потенцiйного бар'єру гетеропереходу. У цьому випадку на тильному р-р + гетеропереходi та у прилеглих до нього з обох сторiн областях будуть iнтенсифiкованi процеси пов'язанi з транспортом атомiв мiдi. Крiм того, спостерiгається перебудова комплексiв точкових дефектiв, що мiстять мiдь, та фазовi перетвореннями Cu 1,4 Te в Cu 2-x Te. Також пiд впливом поля, iндукованого прямозмiщуючою напругою, частки Cu Cd-з областi збiднення шару CdS почнуть рухатись у абсорбер. Це повинно знизити опiр частини шару CdS i привести до зменшення ширини областi збiднiння з боку абсорбера, тим самим, забезпечити зростання спектральної чутливостi СЕ в короткохвильовiй i середньохвильовiй областях сонячного спектру. Електродифузiя додаткової кiлькостi CuCd-в абсорбер повинна посилювати вищеописаний i пов'язаний з цим ефект пiдвищення спектральної чутливостi, а значить i Jф приладiв. На основi проведених дослiджень був розроблений алгоритм вiдновлення ефективностi СЕ ITO/CdS/CdTe/Cu/Au i вiдбраковування деградованих приладових структур в складi працюючого модуля що працюєКлючовi слова: телурид кадмiю, деградацiя сонячного елементу, спосiб вiдновлення, вихiднi параметри, свiтловi дiоднi характеристики UDC 621:53.096

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Investigation of the combination of ITO/CdS/CdTe/Cu/Au solar cells in microassembly for electrical supply of field cables

Deyneko

Semkiv

Khmyrov

et al. 2018

EEJET

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Investigation of Photoelectric Converters With a Base Cadmium Telluride Layer With a Decrease in Its Thickness for Tandem and Two-Sided Sensitive Instrument Structures

Deyneko

Kryvulkin

Matiushenko

et al. 2019

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Photovoltaic cells with a base layer of cadmium telluride with a decrease in its thickness are studied. It is known that the widespread use of photovoltaic converters is constrained by their high price in the case of highly efficient instrument structures, or low efficiency. The creation of tandem and two-sided sensitive photoelectric converters will reduce their cost while increasing their efficiency. However, to create tandem and two-sided sensitive photoelectric converters, the necessary conditions are the use of transparent contacts and a decrease in the thickness of the base layer for efficient absorption of incident radiation by the converter, which is lower. In the research process, it was found that reducing the thickness of the base layer to 1 μm allows to increase the efficiency of the photoelectric transducer during irradiation from the back. An increase in the efficiency of the photoelectric converter occurs due to a decrease in the distance from the generation region of nonequilibrium charge carriers in the region of separation. If the thickness of the base layer is less than 1 μm, then regardless of which side of the irradiation is carried out, a decrease in the efficiency of the instrument structure is observed. Increase in the efficiency of photoconverters is associated with an increase in the negative influence of recombination processes on the back contact, a decrease in the number of charge carriers generated due to incomplete absorption of incident radiation, and a decrease in the volume of the built-in field of the separating barrier when it overlaps with the depletion region of the back contact. ITO/CdS/CdTe/Cu/ITO SCs with a base layer thickness of 1 μm demonstrates degradation stability. The highest value of efficiency in the case of illumination from the front side 8.1 % and with illumination from the back side 3.8 % received after a year of operation of the photovoltaic converter.

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Numerical study of the process of compressing a turbulized two-temperature air charge in the diesel engine

Kasimov

Корытченко

Dubinin

et al. 2018

EEJET

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Procedure for Implementation of the Method of Artificial Deposition of Radioactive Substances from the Atmosphere

Kustov

Slepuzhnikov

Lipovoy

et al. 2019

Nucl. and Rad. Safe.

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Studies of the response to nuclear emergencies with the release of gaseous and dispersed radioactive substances into the atmosphere allowed us to develop a procedure for the practical implementation of this method. The emergency response method is aimed at depositing hazardous radioactive substances from the atmosphere that enter the atmosphere during man-made accidents at nuclear power plants and other facilities for the storage and processing of radioactive materials. The developed procedure with the proposed algorithm of actions operates within the framework of a unified state system of civil protection. The presented procedure allows solving three main tasks on the elimination of emergency consequences: monitoring of the affected area, taking effective management decisions and direct influence on the affected area. The basis for making effective management decisions is to predict the dynamics of radioactively contaminated areas, predict the intensity of precipitation with various methods of artificial deposition and predict the effectiveness of deposition effects on the dynamics of changes in contaminated areas. In order to expand the capabilities of available methods for predicting contaminated areas, their modification has been proposed taking into account deposition features. The use of this procedure allows minimizing the scale of major emergencies at regional and state levels. Due to the use of artificial deposition methods, as provided for in the procedure, there is the possibility of depositing dangerous radioactive substances from the atmosphere from a height of several kilometers, which cannot be implemented by other known methods. The developed algorithm of actions and the procedure for implementing the emergency response method by artificially initiated deposition are the basis for the development of a procedure for practical emergency rescue units during emergency response at regional and state levels. Thus, there is a reason to believe that the use of the proposed procedure will improve the efficiency of response to man-made emergency with the release of hazardous radioactive substances to the atmosphere.

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Іhоr Khmyrov

Development of a technique for restoring the efficiency of film ITO/CdS/CdTe/Cu/Au SCs after degradation

Investigation of the combination of ITO/CdS/CdTe/Cu/Au solar cells in microassembly for electrical supply of field cables

Investigation of Photoelectric Converters With a Base Cadmium Telluride Layer With a Decrease in Its Thickness for Tandem and Two-Sided Sensitive Instrument Structures

Numerical study of the process of compressing a turbulized two-temperature air charge in the diesel engine

Procedure for Implementation of the Method of Artificial Deposition of Radioactive Substances from the Atmosphere

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