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1.

Pool boiling of water-Al2O3 and water-Cu nanofluids on horizontal smooth tubes.

Cieslinski JT, Kaczmarczyk TZ.

Nanoscale Res Lett. 2011 Mar 15;6(1):220. doi: 10.1186/1556-276X-6-220.

2.

Turbulent heat transfer and pressure drop characteristics of dilute water based Al2O3-Cu hybrid nanofluids.

Suresh S, Venkitaraj KP, Hameed MS, Sarangan J.

J Nanosci Nanotechnol. 2014 Mar;14(3):2563-72.

PMID:
24745264
3.

A review on boiling heat transfer enhancement with nanofluids.

Barber J, Brutin D, Tadrist L.

Nanoscale Res Lett. 2011 Apr 4;6(1):280. doi: 10.1186/1556-276X-6-280.

4.

Boiling local heat transfer enhancement in minichannels using nanofluids.

Chehade AA, Gualous HL, Le Masson S, Fardoun F, Besq A.

Nanoscale Res Lett. 2013 Mar 18;8(1):130. doi: 10.1186/1556-276X-8-130.

5.

Infrared thermometry study of nanofluid pool boiling phenomena.

Gerardi C, Buongiorno J, Hu LW, McKrell T.

Nanoscale Res Lett. 2011 Mar 16;6(1):232. doi: 10.1186/1556-276X-6-232.

6.

Temperature dependence of convective heat transfer with Al2O3 nanofluids in the turbulent flow region.

Kwon Y, Lee K, Park M, Koo K, Lee J, Doh Y, Lee S, Kim D, Jung Y.

J Nanosci Nanotechnol. 2013 Dec;13(12):7902-5.

PMID:
24266161
7.

Numerical study of the enhancement of heat transfer for hybrid CuO-Cu Nanofluids flowing in a circular pipe.

Balla HH, Abdullah S, Mohdfaizal W, Zulkifli R, Sopian K.

J Oleo Sci. 2013;62(7):533-9.

8.

CFD simulation of the effect of particle size on the nanofluids convective heat transfer in the developed region in a circular tube.

Davarnejad R, Barati S, Kooshki M.

Springerplus. 2013 Apr 30;2(1):192. doi: 10.1186/2193-1801-2-192. Print 2013 Dec.

9.

Numerical evaluation of laminar heat transfer enhancement in nanofluid flow in coiled square tubes.

Sasmito AP, Kurnia JC, Mujumdar AS.

Nanoscale Res Lett. 2011 May 9;6(1):376. doi: 10.1186/1556-276X-6-376.

10.

Heat transfer and pressure drop characteristics of nanofluids in a plate heat exchanger.

Kwon YH, Kim D, Li CG, Lee JK, Hong DS, Lee JG, Lee SH, Cho YH, Kim SH.

J Nanosci Nanotechnol. 2011 Jul;11(7):5769-74.

PMID:
22121605
11.

Al2O3-based nanofluids: a review.

Sridhara V, Satapathy LN.

Nanoscale Res Lett. 2011 Jul 16;6:456. doi: 10.1186/1556-276X-6-456.

12.

Experimental study of natural convection enhancement using a Fe3O4-water based magnetic nanofluid.

Stoian FD, Holotescu S.

J Nanosci Nanotechnol. 2012 Oct;12(10):8211-4.

PMID:
23421199
13.

Numerical investigation of Al2O3/water nanofluid laminar convective heat transfer through triangular ducts.

Zeinali Heris S, Noie SH, Talaii E, Sargolzaei J.

Nanoscale Res Lett. 2011 Feb 28;6(1):179. doi: 10.1186/1556-276X-6-179.

14.

Investigation of heat transfer in turbulent nanofluids using direct numerical simulations.

Kondaraju S, Jin EK, Lee JS.

Phys Rev E Stat Nonlin Soft Matter Phys. 2010 Jan;81(1 Pt 2):016304. Epub 2010 Jan 11.

PMID:
20365457
15.

Pressure-drop viscosity measurements for gamma-Al2O nanoparticles in water and PG-water mixtures (nanofluids).

Lai WY, Phelan PE, Prasher RS.

J Nanosci Nanotechnol. 2010 Dec;10(12):8026-34.

PMID:
21121293
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18.

The effect of additives and nanoparticles on falling film absorption performance of binary nanofluids (H2O/LiBr + nanoparticles).

Lee JK, Kim H, Kim MH, Koo J, Kang YT.

J Nanosci Nanotechnol. 2009 Dec;9(12):7456-60.

PMID:
19908808
19.

Performance evaluation on an air-cooled heat exchanger for alumina nanofluid under laminar flow.

Teng TP, Hung YH, Teng TC, Chen JH.

Nanoscale Res Lett. 2011 Aug 9;6:488. doi: 10.1186/1556-276X-6-488.

20.

Particle size and interfacial effects on thermo-physical and heat transfer characteristics of water-based alpha-SiC nanofluids.

Timofeeva EV, Smith DS, Yu W, France DM, Singh D, Routbort JL.

Nanotechnology. 2010 May 28;21(21):215703. doi: 10.1088/0957-4484/21/21/215703. Epub 2010 Apr 30.

PMID:
20431197
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