The DC energy produced by photovoltaic (PV) modules can change depending on the cell type, module components and module technology. The cell efficiency, sensitivity of the cell to light, recombination losses and how...The DC energy produced by photovoltaic (PV) modules can change depending on the cell type, module components and module technology. The cell efficiency, sensitivity of the cell to light, recombination losses and how much the light reflects within the cell will affect the amount of produced energy. In addition, the energy produced will change depending on what wavelength light and how much can be transmitted through the front glass and encapsulant and how much light is reflected from back encapsulant and back cover. The front glass transmissivity, patterned surface and existence of ARC (anti-reflective coating) are all very important. In this research project, 14 modules were tested: 4 modules Glass/Glass (Perc Mono Cell), 4 modules Glass/Ceramic (Perc Mono Cell), 2 modules Glass/Glass bifacial (HIT Cell), 1 module Standard (Framed, Mono-n type Cell), 2 modules Standard (Framed, Poly Cell), 1 module Standard (Framed, Perc Mono Cell). This paper compares the normalized Wh/Wp ratios of the different modules under low irradiance (morning and afternoon light) and analyzes and investigates the obtained results as per the cell type used, module components and module technology.展开更多
At Siemens, an in-house CFD (computational fluid dynamics) code UniFlow is used to investigate fluid flow and heat transfer in oil-immersed and dry-type transformers, as well as transformer components like windings,...At Siemens, an in-house CFD (computational fluid dynamics) code UniFlow is used to investigate fluid flow and heat transfer in oil-immersed and dry-type transformers, as well as transformer components like windings, cores, tank walls, and radiators. This paper outlines its physical models and numerical solution methods. Furthermore, for oil-immersed transformers, it presents an application to a HV (high voltage) winding in a traction transformer of locomotives, cooled by synthetic ester.展开更多
In this study,high entropy metallic glasses(HEMGs)were developed through a combination of concepts for designing metallic glasses(main element+transition metal+metalloid element)and high-entropy alloys(more than five ...In this study,high entropy metallic glasses(HEMGs)were developed through a combination of concepts for designing metallic glasses(main element+transition metal+metalloid element)and high-entropy alloys(more than five elements,each element having an atomic concentration between 5 at.%and 35 at.%).The developed metallic glass alloys are composed of Co-Fe-Ni main elements,transition metals(Cr,Mo)and metalloid elements(C,B).Moreover,the present work reports the thermal,mechanical and magnetic properties of(CoFeNi)(50)(CrMo)(50-x)(CB)x alloys with x=20,25,30.The developed as-spun HEMGs exhibit typical paramagnetic properties even for a high amount of ferromagnetic elements(Co,Fe,and Ni)and have high elastic modulus(103–160 GPa)and hardness(14–27 GPa),thus possessing mechanical properties similar to well-known Co-based metallic glasses(Co-Cr-Mo-C-B system).In addition,some of the bulk samples prepared with a diameter of 2 mm form bulk metallic glasses with a high compressive strength around 3.5 GPa.The mechanisms determining the stability of the supercooled liquid,as well as the paramagnetic and mechanical properties for the developed non-equiatomic HEMGs,are discussed.展开更多
文摘The DC energy produced by photovoltaic (PV) modules can change depending on the cell type, module components and module technology. The cell efficiency, sensitivity of the cell to light, recombination losses and how much the light reflects within the cell will affect the amount of produced energy. In addition, the energy produced will change depending on what wavelength light and how much can be transmitted through the front glass and encapsulant and how much light is reflected from back encapsulant and back cover. The front glass transmissivity, patterned surface and existence of ARC (anti-reflective coating) are all very important. In this research project, 14 modules were tested: 4 modules Glass/Glass (Perc Mono Cell), 4 modules Glass/Ceramic (Perc Mono Cell), 2 modules Glass/Glass bifacial (HIT Cell), 1 module Standard (Framed, Mono-n type Cell), 2 modules Standard (Framed, Poly Cell), 1 module Standard (Framed, Perc Mono Cell). This paper compares the normalized Wh/Wp ratios of the different modules under low irradiance (morning and afternoon light) and analyzes and investigates the obtained results as per the cell type used, module components and module technology.
文摘At Siemens, an in-house CFD (computational fluid dynamics) code UniFlow is used to investigate fluid flow and heat transfer in oil-immersed and dry-type transformers, as well as transformer components like windings, cores, tank walls, and radiators. This paper outlines its physical models and numerical solution methods. Furthermore, for oil-immersed transformers, it presents an application to a HV (high voltage) winding in a traction transformer of locomotives, cooled by synthetic ester.
基金supported by the Technology Innovation Program(No.10063052,Development of advanced nano-micron coating material and coated cutting tool for Hard-to-Cut)funded By Ministry of Trade,Industry and Energy(MOTIE,Korea)+1 种基金the Basic Research Laboratory Program through the Ministry of Education of the Republic of Korea(No.2019R1A4A1026125)support through the European Research Council under the Advanced Grant“INTERLHYB”—Next Generation of Complex Metallic Materials in Intelligent Hybrid Structures”(No.ERC-2013-ADG-340025)is gratefully acknowledged。
文摘In this study,high entropy metallic glasses(HEMGs)were developed through a combination of concepts for designing metallic glasses(main element+transition metal+metalloid element)and high-entropy alloys(more than five elements,each element having an atomic concentration between 5 at.%and 35 at.%).The developed metallic glass alloys are composed of Co-Fe-Ni main elements,transition metals(Cr,Mo)and metalloid elements(C,B).Moreover,the present work reports the thermal,mechanical and magnetic properties of(CoFeNi)(50)(CrMo)(50-x)(CB)x alloys with x=20,25,30.The developed as-spun HEMGs exhibit typical paramagnetic properties even for a high amount of ferromagnetic elements(Co,Fe,and Ni)and have high elastic modulus(103–160 GPa)and hardness(14–27 GPa),thus possessing mechanical properties similar to well-known Co-based metallic glasses(Co-Cr-Mo-C-B system).In addition,some of the bulk samples prepared with a diameter of 2 mm form bulk metallic glasses with a high compressive strength around 3.5 GPa.The mechanisms determining the stability of the supercooled liquid,as well as the paramagnetic and mechanical properties for the developed non-equiatomic HEMGs,are discussed.
