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				</form></div><table border=0 cellspacing=0 cellpadding=0 width=100%><tr><td valign=top><div class=mniejsza>[29993] Artykuł:</div><h1>Free convection on a refrigerator's condenser</h1><span class=mniejsza>Czasopismo:</span><span class="srednia"> Experimental Fluid Mechanics 2013, Kutná Hora 19th -22rd November 2013 &nbsp;</span> <i>Tom: 67, Strony: 530-534</i><br><span class="najmniejsza">ISSN:</span>&nbsp; 2100-014X<br><span class="najmniejsza">Wydawca:</span>&nbsp; E D P SCIENCES, 17 AVE DU HOGGAR PARC D ACTIVITES COUTABOEUF BP 112, F-91944 CEDEX A, FRANCE<br><span  class="najmniejsza">Opublikowano: </span> 2014<br><span class="najmniejsza">Seria wydawnicza:</span>&nbsp; EPJ Web of Conferences<br><div class=najmniejsza>&nbsp;<br>&nbsp; Autorzy / Redaktorzy / Twórcy</div><table bgcolor=#f9f9ff border=1 cellpadding=4 cellspacing=0 align=center width=100%><tr class=naglowek_drobny><td class=naglowek_drobny width=25%>Imię i nazwisko</td>
		<td class=naglowek_drobny width=9%>Wydział</td>
		<td class=naglowek_drobny>Katedra</td>	
		<td class=naglowek_drobny width=8%>Procent<br>udziału</td>
		<td class=naglowek_drobny width=8%>Liczba<br>punktów</td>
		<tr><td>Katarzyna Stokowiec <a href="https://orcid.org/0000-0002-6433-7206" target=_blank><img src="../orcid.png" alt="orcid logo" style="width:24px;height:24px;border:0"></a><td class="c">WiŚGiE<td>Katedra Sieci i Instalacji Sanitarnych<td class="c">50<td class="r">7.50 &nbsp;<tr><td>Tadeusz Orzechowski <a href="https://orcid.org/0000-0002-1727-8186" target=_blank><img src="../orcid.png" alt="orcid logo" style="width:24px;height:24px;border:0"></a><td class="c">WiŚGiE<td>Katedra Sieci i Instalacji Sanitarnych<td class="c">50<td class="r">7.50 &nbsp;</table><br><span class="najmniejsza">Grupa MNiSW:</span>&nbsp; Materiały z konferencji międzynarodowej (zarejestrowane w Web of Science) <br><span class="najmniejsza">Punkty MNiSW:</span> 15<br><span class="najmniejsza">Klasyfikacja Web of Science:</span> Proceedings Paper<br><br><hr><img src="../Logo_doi.png" alt="DOI Logo" height="24" width="24"><a href="https://www.doi.org/10.1051/epjconf/20146702089" target="_blank">DOI</a> &nbsp; &nbsp;  <img src="../webofsciencemini.png" alt="Web of Science Logo" height="24" width="24"> <a href="http://dorobek.tu.kielce.pl/publikacje/artykul_edycja_pokaz_wos.php?wosID=WOS:000343672100092" target="_blank">Web of Science</a> &nbsp; &nbsp; </table><hr><br><div ><span class=najmniejsza><b>Abstract:</b></span> <p lang="en">The paper presents the measurement of heat transfer coefficient for the refrigerator's condenser in free convection regime. The water was pumped through the steel coils of heat exchanger with a constant flow rate and its temperature was kept at a demanded value by means of ultrathermostat. The research was conducted in stationary conditions which were controlled by a continuous measurement of the water temperature at inflow and outflow to the heat exchanger. The temperature distribution at the external condenser surface was registered by means of an infrared camera. Single elements used to the analysis were selected using the thermogram registered. In free convection regime and in case of small temperature change the heat transfer coefficient value can be calculated by comparing the measured temperature area with analytical solution describing one-dimensional temperature distribution along the rib. The accuracy of the proposed method for measuring the heat transfer coefficient was examined by comparing the heat transferred to the air and the heat lost by water flowing through the spiral of heat exchanger. An error between these two parameters is about 6%.</p><div class=nie_drukuj><br><center><div class="wieksza"><a href="#tu">POWRÓT</div></center><div class="link_nawigacja"><a href='/'>Strona główna</a> &gt; <a href='/publikacje/'>Publikacje</a></div></div><br>&nbsp;</body></html>