Open Access
Subscription Access
Open Access
Subscription Access
Fabrication and Performance Improvement of Heat Exchanger using Wire Coil Inserts with Hybrid Nano Particles
Subscribe/Renew Journal
In the last decade, a number of investigations have been conducted to identify the possible mechanisms that contribute to the enhanced effective thermal conductivity of nano particle suspensions [Nano fluids]. The thermal performance of heat exchangers depends on a variety of factors including geometric, kinetic and spatial aspects related to the net heat transfer rate encountered between the heat transfer sections and flow of fluids.
A laminar flow convective heat transfer of Al2O3 - Cu + Water nanofluids flowing through a horizontal tube heat exchanger pipes with and without coil inserts were experimented. For this purpose, Al2O3 - Cu nano particles were synthesized, characterized and dispersed in distilled water to form stable suspension containing 0.1% volume concentration of nanoparticles. Two wire coil inserts were made of Cu was introduced in the heat exchanger tubes to increase the heat transfer performance of nano fluid flowing in it. The performance of nano fluid in heat exchanger with and without wire coil inserts were calculated and reported.
Keywords
- Kabeel, AE; Abou El Maaty, T; El Samadony, Y: The effect of using nano-particles on corrugated plate heat exchanger performance, 'Applied Thermal Engineering', vol. 52, no. 1, 5 April 2013, 221–229.
- Ghosh, Indranil; Sarangi, Sunil Kumar; Kumar Das, Prasanta; Synthesis of multistream heat exchangers by thermally linked two-stream modules, 'International Journal of Heat and Mass Transfer', vol. 53, no. 5–6, February 2010, 1070–1078.
- Piotrowska, Ewa; Chochowski, Andrzej: Application of parametric identification methods for the analysis of the heat exchanger dynamics, 'International Journal of Heat and Mass Transfer', vol. 55, no. 23–24, November 2012, 7109–7118.
- Genic, Srbislav B; Jacimovic, Branislav M; Jaric, Marko S; Budimir, Nikola J: Analysis of fouling factor in district heating heat exchangers with parallel helical tube coils, 'International Journal of Heat and Mass Transfer', vol. 57, no. 1, 15 January 2013, 9–15.
- Al-Dawery, Salam K; Alrahawi, Ayham M; Al-Zobai, Khalid M: Dynamic modeling and control of plate heat exchanger, 'International Journal of Heat and Mass Transfer', vol. 55, no. 23–24, November 2012, 6873–6880.
- You, Yonghua; Suyi Huang, Aiwu Fan; Liu, Wei: Numerical modeling and experimental validation of heat transfer and flow resistance on the shell side of a shell-and-tube heat exchanger with flower baffles, 'International Journal of Heat and Mass Transfer', vol. 55, no. 25–26, December 2012, 7561–7569.
- Mavridou, Sofia G; Bouris, Demetri G: Numerical evaluation of a heat exchanger with inline tubes of different size for reduced fouling rates, 'International Journal of Heat and Mass Transfer', vol. 55, no. 19–20, September 2012, 5185–5195.
- HumaadIjaz, Ati; Uma MK; Mahalec, Vladimir: Heat exchanger network simulation, data reconciliation & optimization, 'Applied Thermal Engineering', vol. 52, no. 2, 15 April 2013, 328–335.
- Ismail, Z; Karim, R: Laminar flow heat transfer of dilute viscoelastic solutions in flattened tube heat exchangers, 'Applied Thermal Engineering', vol. 39, June 2012, 171–178.
- Ismail, MF: Effects of perforations on the thermal and fluid dynamic performance of a heat exchanger, 'IEEE Transactions on Components, Packaging and Manufacturing Technology', vol. 3, Issue: 7, July 2013, 1178- 1185 DOI:10.1109/tcpmt.2013.2240766
Abstract Views: 248
PDF Views: 0