International Journal of Composite Materials  and Matrices

ABSTRACT
Sugar is one of the most desirous commodity in every part of the world. It production requires a lot of planning from crop to final product development. In the present work it is analysed that sugar production is passed through a lot energy intensive processes. These energy intensive processes are necessary at every level of sugar production. Therefore, to plan any energy conservation policy it is rudiment to understand all these processes. Technology is making its way through human development with new inventions in science and engineering. A lot of new inventions are taking place day by day. The parameters to evaluate process performance are also numerous. These parameters may be inter-reliant or independent. Therefore, performance analysis of sugar manufacturing makes it necessary to look into the performance parameters and their interdependence so that their role in technology development may be fully understood.

Dev N., Attri R. Modelling the parameters affecting interconnection of grids using ISM-MICMAC approach, Int J Metall Alloys. 2016; 2(1): 8–19p.

Dev N. Sustainable and renewable technologies for energy demands, Int J Energetic Mater. 2016; 2(1): 15–9p.

Dev N., Satyapal, Kurmi T.K. Decision methodology for site suitability index – a combinatorics approach, Int J Energetic Mater. 2016; 2(1): 1–14.

Dev N. Methodology development for lubricant selection for steam turbine bearing using GTA, Int J Compos Const Mater. 2016; 2(1): 26–38p.

Dev N. Graph theory and matrix method for development and design of combustion engine, Int J Compos Const Mater. 2016; 2(1): 16–25p.

Dev N. Computation of gas turbine system as renewable energy conversion mechanisms, Int J Compos Const Mater. 2016; 2(1): 10–5p.

Dev N. Mathematical model development for turbine blade vibration analysis, Int J Mech Dyn Anal. 2016; 2(1).

Dev N. Vibration in turbine blades: review of techniques, Int J Mech Dyn Anal. 2016; 2(1).

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Dev N., Samsher, Kachhwaha S.S., et al. Exergy analysis and simulation of a 30MW cogeneration cycle, Front Mech Eng. 2013; 8(2): 169–80p.

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Attri R., Dev N., Grover S. A graph theoretic approach to evaluate the intensity of barriers in the implementation of Total Productive Maintenance (TPM), Int J Prod Res. 2013; DOI:10.1080/00207543.2013.860250.

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Dev N., Samsher, Kachhwaha S.S., et al. GTA modelling of combined cycle power plant efficiency analysis, Ain Shams Eng J. 2015; 6: 217–37p.

Attri R., Dev N. Performance analysis of combined cycle power plant, Front Energy. 2015; 9(4): 371–86p, DOI10.1007/s11708-015-0371-9.