Guidelines to Authors

Rules and Regulations

1. All Paper should be the original one and it should not be published/submitted in any where.
2. All Authors and Co-authors must write the correct affiliation inside the paper.
3. PRAKASH will not add or modify any author’s or co-author’s name inside the paper after the registration of the paper without the NOC (No Objection Certificate) from all authors and co-authors.
4. PRAKASH is not responsible for identifying the originality of the affiliation of authors of the paper. 

Submission Guidelines

1. All papers should be submitted in .Doc format only.

2. Manuscript has been 'spell checked' and 'grammar checked'.

3. All references mentioned in the Reference List are cited in the text, and vice versa.

4. Permission has been obtained for use of copyrighted material from other sources (including the Internet).

5. A competing interests statement is provided, even if the authors have no competing interests to declare.

6. Referee suggestions and contact details provided, based on journal requirements.
7. Submission to this journal proceeds totally online and you will be guided stepwise through the creation and uploading of your files.
8. All manuscripts must contain the essential elements needed to convey your research, for example Abstract, Keywords, Introduction, Materials and Methods, Results, Conclusions, Artwork, images (JPEG/Tiff) and Tables with Captions using the given format.
9. References should be styled and punctuated according to the following examples: journal article [i]; journal supplement [ii]; book [iii]; edited book [iv], thesis [v]; unpublished report [vi]; published report [vii]; proceedings [viii], and patent [ix].
[i] 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.
[ii] E.R.G. Eckert, H.H. Cho, Transition from transpiration to film cooling, International Journal of Heat and Mass Transfer 37 (suppl. 1) (1994) 3-8.
[iii] A. Bejan, Convection Heat Transfer, second ed., Wiley, New York, 1995, pp. 62-75.
[iv] M. Kaviany, Heat transfer in porous media, in: W.M. Rohsenow, J.P. Hartnett, Y.I. Cho (Eds.), Handbook of Heat Transfer, McGraw-Hill, New York, 1998, pp. 9.32-9.43.
[v] W.-T. Yang, Two-phase swirl flow, PhD thesis, University of Illinois, Chicago, IL, 1997.
[vi] S.P. Vanka, Efficient computation of viscous internal flows, SBIR Phase-I Report, NAS3-25573, Propulsion Research Associates, Westmont, IL, August 1989.
[vii] J. Davids, D. Smith, Analysis of constant-velocity joints under high torque, HMSO, London, 1996, pp. 1-8. [viii] V.P. Carey, Modeling of microscale transport in multiphase systems, in: J.S. Lee (Ed.), Proceedings of the Eleventh Heat Transfer Conference, Taylor & Francis, Philadelphia, PA, 1998, pp. 23-40.
[ix] T. Burns, US Patent No. 358498, 1995.
[x] M. Oguro, S. Imahiro, S. Saito, T. Nakashizuka, Mortality data for Japanese oak wilt disease and surrounding forest compositions, Mendeley Data, v1, 2015. xwj98nb39r.1

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