Physical and Chemical Phenomena in Heat Exchangers and Multifunctional Reactors for Sustainable Technology
Eurotherm Seminar 106, 10-11 Oct 2016 Paris (France)
Title presentation
Joseph Fourier1, Sophie Germain1, Gustave Eiffel2
1
Académie des sciences, 23 quai de Conti, 75006 Paris, France.
2
Tour Eiffel, Champ de Mars, 75007 Paris, France.
E-mail address: eurotherm106@sciencesconf.org
Abstract
This document serves as a WORD template and instructions in providing the basic guidelines
for preparing the abstract submission for the EUROTHERM Seminar 106.
>> Two pages maximum for abstracts are allowed to submit by using this format.
Abstract should be written concisely and includes aim of the study, summarized data based on
scientific evidence and conclusion. Please use justified format for all text body.
Please add only the relevant results as well as discussion. Results may be separated from
discussion as appropriate. Concise data should be summarized in this section.
>> Please note that your abstract will be published in the proceedings.
Graphics should be in TIFF or PNG format, 600 dpi for graphics, charts, drawings or tables
and 200 dpi for photos and gray scale images. Image resolution can be compressed by right
clicking on the image, clicking the “Format Picture” menu, followed by the “Picture” tab and
clicking on the compress button. Choose the Print check box to alter the resolution to 200 dpi.
Table should be prepared by word “NOT imported from excel” and inserted at position as
appropriate. If you summarize your data in Table format, please do not repeat data in the body
text.
The author(s) can include ONE table or figure in the text.
Table 1. Summary of essential data
Test
Measurement (K)a
Remark
Result 1
Result 2
a
Use 10 point Times New Roman character for footnote.
Keywords
Immediately after the abstract, provide a maximum of 6 keywords.
References
References should be styled and punctuated according to the following examples.
[1] Q.S. Liu, B. Roux, M.G. Velarde, Thermocapillary convection in two-layer systems, International
Journal of Heat and Mass Transfer 41 (11) (1998) 1499-1511.
[2] A. Bejan, Convection Heat Transfer, second ed., Wiley, New York, 1995, pp. 62-75.
[3] W.-T. Yang, Two-phase swirl flow, PhD thesis, University of Illinois, Chicago, IL, 1997.
[4] V.P. Carey, Modeling of microscale transport in multiphase systems, in: J.S. Lee (Ed.),
Proceedings of the 11th Heat Transfer Conference, Taylor & Francis, Philadelphia, PA, 1998, pp. 2340.
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