Convective heat transfer from molten salt droplets in a direct contact heat exchanger
Author:
Publisher
Springer Science and Business Media LLC
Subject
Fluid Flow and Transfer Processes,Condensed Matter Physics
Link
http://link.springer.com/content/pdf/10.1007/s00231-010-0630-6.pdf
Reference24 articles.
1. Naterer GF, Gabriel K, Wang ZL, Daggupati VN, Gravelsins R (2008) Thermochemical hydrogen production with a copper–chlorine cycle I: oxygen released from copper oxychloride decomposition. Int J Hydrogen Energy 33:5439–5450
2. Simpson AP, Lutz AE (2007) Energy analysis of hydrogen production via steam methane reforming. Int J Hydrogen Energy 32:4811–4820
3. Naterer GF, Daggupati VN, Marin G, Gabriel KS, Wang ZL (2008) Thermochemical hydrogen production with a copper–chlorine cycle, II: flashing and drying of aqueous cupric chloride. Int J Hydrogen Energy 33:5451–5459
4. Onuki A, Kanatani K (2005) Droplet motion with phase change in a temperature gradient. Phys Rev E 72:1–11
5. de Villeneuve V, Aarts D, Lekkerkerker H (2006) Comparing the approach of a rigid sphere and a deformable droplet towards a deformable fluid surface. Colloids Surf 282:61–67
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