Kedar Kulkarni scite author profile

in Wiley InterScience (www.interscience.wiley.com).In distributed systems, transport phenomena coupled with chemical or metabolic reactions are functions of space. A computational method is outlined to acquire unknown system properties in distributed systems by problem inversion. Physical and chemical properties are estimated simultaneously. The finite-volume discretization method formulated in generalized curvilinear coordinates applied to inversion problem of arbitrarily complex geometries. The direct solution approach of the reacting transport problem through inexpensive acquisition of sensitivity information is presented. An inexact trust region method improves the convergence rate of the large-scale transport and kinetic inversion problem (TKIP). The case studies demonstrate a novel computational approach for quantifying unknown transport properties, as well as reaction or metabolic constants. Solutions to technological challenges is presented in computational fluid mechanics and biotransport using mathematical programming techniques for inversion of distributed systems.

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PHY Abstraction Techniques for IEEE 802.11p and LTE-V2V: Applications and Analysis

Anwar

Kulkarni

Augustin

et al. 2018

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A novel green approach for dyeing polyester using glycerine based eutectic solvent as a dyeing medium

Pawar

Maiti

Biranje

et al. 2019

Heliyon

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In the past decade, water scarcity has become major concern and is going to be reality in future too. At the same time textile is necessity which needs a billion liters of fresh water for its processing. Out of this 16 % of water is only used for dyeing of textile materials. In a quest to develop a sustainable approach to reduce water scarcity, an attempt has been made to minimize water consumption in textile wet processing. In this work, an eco-friendly glycerine based eutectic solvent (GES) was prepared by using choline chloride, urea and glycerin to reduce water consumption in polyester dyeing. The prepared solvent was characterized in terms of FTIR. Dyeing parameters like time, temperature and pH were optimized for dyeing of polyester using GES as a dyeing medium. The efficacy of dyeing was analyzed by colour strength and colour performance properties; sublimation, wash and light fastness. In comparison with conventional dyed polyester overall dyeing performance was found to be better without affecting tensile strength of polyester which remains almost same whereas thermal stability of solvent dyed polyester was slightly improved compared with aqueous dyed polyester. The results obtained from this study suggest that the GES as a polyester dyeing medium can be a green approach in dyeing of polyester.

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Kedar Kulkarni

A novel hybrid optimization methodology to optimize the total number and placement of wind turbines

Discovery of transport and reaction properties in distributed systems

PHY Abstraction Techniques for IEEE 802.11p and LTE-V2V: Applications and Analysis

A novel green approach for dyeing polyester using glycerine based eutectic solvent as a dyeing medium

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