N. A. Matchanov scite author profile

N. A. Matchanov

4Publications

66Citation Statements Received

31Citation Statements Given

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Affiliations

National University of Uzbekistan, Academy of Sciences Republic of Uzbekistan, Westminster International University in Tashkent

Publications

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Electrical, Thermal, and Mechanical Characterization of Novel Segmented-Leg Thermoelectric Modules

D’Angelo

Case

Matchanov

et al. 2011

Journal of Elec Materi

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In this paper we report on the electrical, thermal, and mechanical characterization of segmented-leg PbTe-based thermoelectric modules. This work featured a thermoelectric module measurement system that was constructed and used to measure 47-couple segmented thermoelectric power generation modules fabricated by Tellurex Corporation using n-type Bi 2 Te 3Àx Se x to Ag 0.86 Pb 19+x SbTe 20 legs and p-type Bi x Sb 2Àx Te 3 to Ag 0.9 Pb 9 Sn 9 Sb 0.6 Te 20 legs. The modules were measured under vacuum with hot-side and cold-side temperatures of approximately 670 K and 312 K, respectively. In addition, the measurements on the PbTe-based materials are compared with measurements performed on Bi 2 Te 3 reference modules. Efficiency values as high as 6.56% were measured on these modules. In addition to the measurement system description and the measurement results on these modules, infrared images of the modules that were used to help identify nonuniformities are also presented.

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Elastic modulus, biaxial fracture strength, electrical and thermal transport properties of thermally fatigued hot pressed LAST and LASTT thermoelectric materials

Morrison

Case

Ren

et al. 2012

Materials Chemistry and Physics

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Study of Energy Yield on Grid Connected Micro-Inverter Type 2.24 kW PV System Using PVsyst Simulation Software

et al. 2020

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The output energy characteristics of a 2.24 kW grid-connected micro-inverter type photovoltaic power generation system installed in Tashkent were studied using PVsyst software. In the best conditions, it operated for about 10 h a day and produced 14.65 kW h of power. Although PVsyst predicted 79.7%, the actual performance ratio (PR) was very high, at 95.5%. Analysis of the loss parameters revealed that the module's temperature influence was the most significant (-8.5%), followed by the inverter's switching loss (-5.7%).

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Diffusion and Electroluminescence Studies of Low Temperature Diffusion of Boron in 3C-SiC

Atabaev¹,

Tin

Atabaev³

et al. 2008

MSF

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The characteristics of boron diffusion in 3C-SiC at low temperature have been measured using spreading resistance technique and electroluminescence spectroscopy. The coefficient of boron diffusion in the temperature range of 1150 –1250°С has been found to be about 5.5 x 10-11–5.0 x 10-10 cm2/sec and the activation energy of boron diffusion was determined to be about 0.9 –1.15 eV. Electroluminescence spectra of 3C-SiC p-n junction structures showed peaks at 750 and 630 nm due to growth defects and carbon-silicon divacancies respectively.

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N. A. Matchanov

Electrical, Thermal, and Mechanical Characterization of Novel Segmented-Leg Thermoelectric Modules

Elastic modulus, biaxial fracture strength, electrical and thermal transport properties of thermally fatigued hot pressed LAST and LASTT thermoelectric materials

Study of Energy Yield on Grid Connected Micro-Inverter Type 2.24 kW PV System Using PVsyst Simulation Software

Diffusion and Electroluminescence Studies of Low Temperature Diffusion of Boron in 3C-SiC

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