Analiza toplinskih karakteristika polimernog solarnog toplovodnog kolektora

Filipović, Petar (2017) Analiza toplinskih karakteristika polimernog solarnog toplovodnog kolektora. = Analysis of thermal performances of polymer solar hot water collector. Master's thesis (Bologna) , Sveučilište u Zagrebu, Fakultet strojarstva i brodogradnje, UNSPECIFIED. Mentor: Dović, Damir.

[img] Text
FilipovicP_2017_diplomski.pdf - Published Version
Restricted to Repository staff only until 11 December 2019. Jezik dokumenta:Croatian

Download (3MB)
[img] Text
Filipović_Petar_autorska_izjava_diplomski_2017.pdf - Published Version
Restricted to Repository staff only Jezik dokumenta:Croatian

Download (443kB)

Abstract (Croatian)

U ovom radu je napravljen model za određivanje toplinskih karakteristika toplovodnog solarnog kolektora izrađenog od polimera kao dijela optimizacije i izrade prototipa. Rad je proveden u nekoliko faza. Na početku je dan pregled literature vezane uz dosadašnji razvoj polimernih kolektora. U prvoj fazi je razvijen analitički model klasičnog pločastog solarnog kolektora. Za verifikaciju analitičkog modela koristili su se rezultati ispitivanja koje je proveo Laboratorij za toplinu i toplinske uređaju. U sklopu prve faze, prikazan je i utjecaj konstrukcijskih, pogonskih i optičkih svojstava na učinkovitost kolektora. Analitički model je razvijen pomoću programskog paketa Matlab. U drugoj fazi izrađen je numerički model za određivanje toplinskih karakteristika klasičnog pločastog solarnog kolektora. Numerički model je verificiran pomoću dobivenih rezultata pomoću analitičkog modela i eksperimentalnih podataka. Za provedbu simulacija izmjene topline unutar kolektora korišten je programski paket Fluent. Na temelju iskustva iz dobivenih iz prve i druge faze, u trećoj fazi razvijen je model za određivanje toplinskih karakteristika toplovodnog solarnog kolektora izrađenog od polimera. Na temelju rezultata dobivenih numeričkim simulacijama polimernog kolektora, dane su smjernice za daljnje poboljšanje samog numeričkog modela, a time i poboljšanja toplinskih karakteristika polimernog kolektora.

Abstract

In this paper, a model has been developed for determining the heat characteristics of a solar thermal collector made of polymers as part of optimization and prototype making. Work has been carried out in several phases. At the beginning, a review of literature related to the current development of polymer collectors is presented. In the first stage, an analytical model of a classic plate solar collector was developed. For the verification of the analytical model, the test results used by the Laboratory for Heat and Heat Equipment were used. As part of the first phase, the impact of structural, operating and optical properties on the efficiency of the collector is also shown. The analytical model was developed using the Matlab program package. In the second phase, a numerical model was developed for determining the thermal characteristics of a classical plate solar collector. The numerical model is verified by means of analytical model and experimental data. The Fluent software package was used for the simulation of heat transfer inside the collector. Based on the experience gained from the first and second phases, in a third phase model has been developed to determine the thermal characteristics of a solar thermal collector made of polymers. Based on the results obtained by the numerical simulations of the polymer collector, guidelines have been provided for further improvement of the numerical model itself and hence the improvement of the thermal characteristics of the polymer collector.

Item Type: Thesis (Master's thesis (Bologna))
Uncontrolled Keywords: polimerni solarni kolektor; numerička simulacija; izmjena topline unutar kolektora; Fluent
Keywords (Croatian): polymer solar collector; numerical simulation; heat exchange inside the collector; Fluent
Subjects: TECHNICAL SCIENCE > Mechanical Engineering
Divisions: 300 Department of Thermodynamics, Thermal and Process Engineering > 320 Chair of Thermal and Process Engineering
Date Deposited: 11 Dec 2017 11:18
Last Modified: 11 Dec 2017 15:54
URI: http://repozitorij.fsb.hr/id/eprint/8184

Actions (login required)

View Item View Item

Downloads

Downloads per month over past year

Nema podataka za dohvacanje citata