Publication detail

The Size Effect of Heat-Transfer Surfaces on Boiling

KRACÍK, P. LISÝ, M. BALÁŠ, M. POSPÍŠIL, J.

Original Title

The Size Effect of Heat-Transfer Surfaces on Boiling

Type

journal article in Web of Science

Language

English

Original Abstract

A sprinkled tube bundle is frequently used in technology processes where an increase or decrease of a liquid temperature in a very low-pressure environment is required. Phase transitions of the liquid very often occur at low temperatures at pressures ranging in the thousands of pascals, which enhances the heat transfer. This paper focuses on the issue of a heat-transfer coefficient that is experimentally examined at the surface of a tube bundle. The tube is located in a low-pressure chamber where the vacuum is generated using an exhauster via an ejector. The tube consists of smooth copper tubes of 12 mm diameter placed horizontally one above another. Heating water flows in the bundle from the bottom towards the top at an average input temperature of approximately 40 °C and an average flow rate of approximately 7.2 L/min. A falling film liquid at an initial temperature of approximately 15 °C at an initial tested pressure of approximately 97 kPa (atmospheric pressure) is sprinkled onto the tubes’ surface. Afterwards, the pressure in the chamber is gradually decreased. When reaching the minimum pressure of approximately 3 kPa (abs) the water partially evaporates at the lower part of the bundle. Consequently, the influence of the falling film liquid temperature increase is tested. This gradually leads to the boiling of water in a significant part of the bundle and the residual cooling liquid that drops back to the bottom of the vessel is almost not heated anymore. In this paper we present the influences of the size of the heat-transfer surfaces.

Keywords

sprinkled tube bundle, water, under pressure, heat transfer

Authors

KRACÍK, P.; LISÝ, M.; BALÁŠ, M.; POSPÍŠIL, J.

Released

12. 12. 2016

Publisher

Inštitut za kovinske materiale in technologije Ljubljana

Location

Ljubljana

ISBN

1580-2949

Periodical

Materiali in tehnologije

Year of study

50

Number

6

State

Republic of Slovenia

Pages from

939

Pages to

944

Pages count

6

BibTex

@article{BUT119543,
  author="Petr {Kracík} and Martin {Lisý} and Marek {Baláš} and Jiří {Pospíšil}",
  title="The Size Effect of Heat-Transfer Surfaces on Boiling",
  journal="Materiali in tehnologije",
  year="2016",
  volume="50",
  number="6",
  pages="939--944",
  doi="10.17222/mit.2015.245",
  issn="1580-2949"
}