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161. Li J, Qu Y, Ren J et al (2012) Magnetocaloric effect in magnetothermally-responsive
nanocarriers for hyperthermia-triggered drug release. Nanotechnology 23(50):505706
162. Love LJ, Jansen JF, McKnight TE et al (2003) Magnetocaloric pump for lab-on-a chip
technology: phase I report ORNL/TM-2003/245. Report, U.S. Department of Energy
163. Love LJ, Jansen JF, McKinght TE et al (2004) A magnetocaloric pump for microfluidic
applications. IEEE T Nanobiosci 3(2):101
110
164. Yamaguchi H, Sumiji A, Shuchi S et al (2004) Characteristics of thermo-magnetic driven
motor using magnetic
-
2364
165. Fumoto K, Ikegawa M, Kawanami T et al (2009) Heat
fl
uid. J Magn Magn Mater 272:2362
-
transfer characteristics of a
339
166. Lian W, Xuan Y, Li Q (2009) Design method of automatic energy transport devices based on
the thermomagnetic effect of magnetic
thermosensitive magnetic
fl
uid in microchannel. J Therm Sci Tech-JPN 4(3):332
-
5458
167. Xuan Y, Lian W (2011) Electronic cooling using an automatic energy transport device based
on thermomagnetic effect. Appl Therm Eng 31:1487
fl
uids. Int J Heat Mass Transf 52:5451
-
1494
168. Pal S, Chakraborty S, Datta A et al (2010) Experimental investigation of a ferro
-
uid based
thermomagnetic pump. In: Proceedings of the 37th national and 4th international conference
on fluid mechanics and fluid power, IIT Madras, Chennai, 16 - 18 Dec
169. Pal S, Datta A, Sen S et al (2011) Characterization of a ferrofluid-based thermomagnetic
pump for microfluidic applications. J Magn Magn Mater 323:2701 - 2709
170. Kitanovski A, Egolf PW (2010) Innovative ideas for future research on magnetocaloric
technologies. Int J Refrig 33:449 - 464
171. Xia C, Liu T, Qin X et al (2011) Research on the micropump based on the magnetocaloric
effect of magnetic
fl
uid. In: Second international conference on mechanic automation and
control engineering, Inner Mongolia, 15
fl
17 July
-
172. Nguyen NT (2012) Micro magneto
fl
uidics: interactions between magnetism and
fl
uid
fl
ow
16
173. Petit M, Avenas Y, Kedous-Lebouc A et al (2014) Experimental study of a static system
based on a magneto-thermal coupling in ferro
on the microscale. Micro
fl
uid Nano
fl
uid 12(1
4):1
-
-
208
174. Kitanovski A, Egolf PW, Sari O (2009) Method and device for the generation of cold and
heat by magneto-calori c effect. US patent 7481063 B2
175. Darby R (1986) Hydrodynamics of slurries and suspensions. In: Cheremisinoff NP (ed)
Encyclopedia of
fl
uids. Int J Refrig 37:201
-
fl
uid mechanics: slurry
fl
ow technology. Gulf Publishing Company, New
92
176. Hanks RW (1986) Principles of slurry pipeline hydraulics. In: Cheremisinoff NP (ed)
Encyclopedia of fluid dynamics: slurry flow technology. Gulf Publishing Company, Houston,
pp 213 - 276
177. Steffe JF (1992) Rheological methods in food process engineering, 2nd edn. Freeman press,
Michigan
178. Guth E, Simha R (1936) Untersuchungen
York, pp 49
-
ü ber die Viskosit ä t von Suspensionen und
275
179. Vand V (1948) Viscosity of solutions and suspensions. 1. Theory. J Phys Colloid Chem
52:277
L
ö
sungen. 3.
Ü
ber die viskosit
ä
t von kugelsuspensionen. Kolloid Z 74(3):266
-
299
180. Mooney M (1951) The viscosity of a concentrated suspension of spherical particles. J Colloid
Sci 6:162
-
170
181. Frankel NA, Acrivos A (1967) On the viscosity of a concentrated suspension of solid
spheres. Chem Eng Sci 22:847
-
853
182. Jeffrey DJ, Acrivos A (1976) The rheological properties of suspensions of rigid particles.
AIChE J 22:417
-
432
183. Thomas DG (1965) Transport characteristics of suspension: VIII. A note on the viscosity of
Newtonian suspensions of uniform spherical particles. J Colloid Sci 20:267
-
277
184. Batchelor GK (1977) The effect of Brownian motion on the bulk stress in a suspension of
spherical particles. J Fluid Mech 83(1):97 - 117
-
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