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Razvoj prenosnika toplote za ogrevanje hladilne tekočine v električnih vozilih
ID Uršič, Domen (Author), ID Golobič, Iztok (Mentor) More about this mentor... This link opens in a new window, ID Može, Matic (Comentor)

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Abstract
V nalogi smo obravnavali razvoj tlačno litega aluminijastega prenosnika toplote za ogrevanje hladilne tekočine v električnih vozilih. Izdelali smo pregled obstoječih rešitev ter izvedli osnovne preračune hladilnih reber z različnimi paraboličnimi profili z uporabo 1D numeričnega modela in 3D CFD simulacij. Pri tem smo obravnavali preneseno gostoto toplotnega toka s pomočjo različnih oblik reber ter ovrednotili vpliv različne postavitve hladilnih reber na učinkovitost prenosa toplote. Na osnovi izvedenih simulacij smo izdelali rešitev za tlačno liti aluminijasti prenosnik toplote za ogrevanje hladilne tekočine v električnih vozilih ter ovrednotili njegovo konfiguracijo s stališča prenosa toplote. Od skupno 20 simuliranih modelov grelnika sta dve konfiguraciji izpolnjevali glavni zahtevi (maksimalna temperatura grelnika <110 $^°$C in padec tlaka <120 mbar). Na podlagi lastne metrike zmogljivosti, ki primerja prenos toplote glede na padec tlaka, smo izbrali varianto z zaporednimi hladilnimi rebri, ki je dosegla maksimalno temperaturo 105 $^°$C in padec tlaka 80,6 mbar.

Language:Slovenian
Keywords:prenosniki toplote, tlačno liti prenosniki toplote, prenos toplote, hladilna rebra, električna vozila, simulacija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FS - Faculty of Mechanical Engineering
Year:2025
Number of pages:X, 38 f.
PID:20.500.12556/RUL-171904 This link opens in a new window
UDC:536.24:621.564.3:629.331-837(043.2)
COBISS.SI-ID:248372483 This link opens in a new window
Publication date in RUL:04.09.2025
Views:174
Downloads:40
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Secondary language

Language:English
Title:Development of a heat exchanger for coolant heating in electric vehicles
Abstract:
In the thesis, we examined the development of a pressure die-cast aluminum heat exchanger for coolant heating in electric vehicles. We reviewed existing solutions and performed baseline calculations for cooling fins with various parabolic profiles using a 1D numerical model and 3D CFD simulations. We analyzed the heat flux density using different fin shapes and evaluated how different fin layouts affect heat transfer efficiency. Based on the simulations, we produced a design for a pressure die-cast aluminum heat exchanger for EV coolant heating and assessed its configuration from a heat transfer standpoint. Of the 20 simulated heater models, two configurations met the main project requirements (maximum heater temperature <110 $^°$C and pressure drop <120 mbar). Using a custom performance metric that compares heat transfer relative to pressure drop, we selected the variant with inline cooling fins as the final version; it achieved a maximum temperature of 105 $^°$C and a pressure drop of 80,6 mbar.

Keywords:heat exchangers, die-cast heat exchangers, heat transfer, fins, electric vehicles, simulation

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