• Title/Summary/Keyword: Heat source tracking method

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Study On Lagrangian Heat Source Tracking Method for Urban Thermal Environment Simulations (도시 열환경 시뮬레이션을 위한 라그랑지안 열원 역추적 기법의 연구)

  • Kim, Seogcheol;Lee, Joosung;Yun, Jeongim;Kang, Jonghwa;Kim, Wansoo
    • Journal of Korean Society for Atmospheric Environment
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    • v.33 no.6
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    • pp.583-592
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    • 2017
  • A method is proposed for locating the heat sources from temperature observations, and its applicability is investigated for urban thermal environment simulations. A Lagrangian particle dispersion model, which is originally built for simulating the pollutants spread in the air, is exploited to identify the heat sources by transporting the Lagrangian heat particles backwards in time. The urban wind fields are estimated using a diagnostic meteorological model incorporating the morphological model for the urban canopy. The proposed method is tested for the horizontally homogeneous urban boundary layer problems. The effects of the turbulence levels and the computational time on the simulation are investigated.

A study on an Interface Tracking Algorithm in Friction Stir Welding based on Computational Fluid Dynamics Analysis (전산유체역학을 활용한 마찰교반용접의 해석적 접근에서 표면추적을 위한 알고리즘 연구)

  • Kim, Su-Deok;Na, Suck-Joo
    • Journal of Welding and Joining
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    • v.34 no.3
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    • pp.12-16
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    • 2016
  • Friction stir welding(FSW) was studied using commercial tool, FLOW-3D. The purpose of this study is to suggest a method to apply frictional heat in Computational fluid dynamics(CFD) analysis. Cylindrical tool shape was used, and the interface cells between tool surface and workpiece were tracked by its geometrical relations in order to consider the frictional heat in FSW. After tracking the interface cells, average area concept was used to calculate the frictional heat, which is related to interface area. Also three-dimensional heat source and visco-plastic flow were modeled. The frictional heat generation rate calculated numerically from the suggested algorithm was validated with the analytical solution. The numerical solution was well matched with the analytical solution, and the maximum percentage of error was around 3%.

IR signature modeling using an equivalent thermal circuit (등가 열회로를 이용한 물체의 적외선 특성 모델링)

  • 홍현기;한성현;홍경표;최종수
    • Journal of the Korean Institute of Telematics and Electronics S
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    • v.35S no.1
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    • pp.122-129
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    • 1998
  • For generation and analysis of the multi-sensory image, we propose a new three dimensional (3D) modeling method considering an iternal heat source. We represent the heat conduction process within th object as an equivalent thermal circuit. Therefore, without a complex computation, our modeling approach can obtain thermal features of the object. By using the faceted model, the proposed method can express the accurate visual signatures of the object. Comparing the estimates datum with the obtained surface temperatures, we have demonstrated that the proposed method can provide a precise thermal features. The thermal images by out model is applicable to simulate a tracking loop of an IR missile.

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Thermally reused solar energy harvesting using current mirror cells

  • Mostafa Noohi;Ali Mirvakili;Hadi Safdarkhani;Sayed Alireza Sadrossadat
    • ETRI Journal
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    • v.45 no.3
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    • pp.519-533
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    • 2023
  • This paper implements a simultaneous solar and thermal energy harvesting system, as a hybrid energy harvesting (HEH) system, to convert ambient light into electrical energy through photovoltaic (PV) cells and heat absorbed in the body of PV cells. Indeed, a solar panel equipped with serially connected thermoelectric generators not only converts the incoming light into electricity but also takes advantage of heat emanating from the light. In a conventional HEH system, the diode block is used to provide the path for the input source with the highest value. In this scheme, at each time, only one source can be handled to generate its output, while other sources are blocked. To handle this challenge of combining resources in HEH systems, this paper proposes a method for collecting all incoming energies and conveying its summation to the load via the current mirror cells in an approach similar to the maximum power point tracking. This technique is implemented using off-the-shelf components. The measurement results show that the proposed method is a realistic approach for supplying electrical energy to wireless sensor nodes and low-power electronics.