Clayton Copula as an Alternative Perspective of Multi-Reaction Model-Reference-Cited by-同舟云学术

Clayton Copula as an Alternative Perspective of Multi-Reaction Model

Published:2018-11-01 Issue:1 Volume:22 Page:83-106
ISSN:2255-8837
Container-title:Environmental and Climate Technologies
language:en
Short-container-title:

Author:

Dhaundiyal Alok¹,Singh Suraj B.²,Hanon Muammel M.¹,Schrempf Norbert³

Affiliation:

1. Mechanical Engineering Doctoral School, Szent Istvan University, Godollo , Hungary

2. Department of Mathematics, Statistics & Computer Science, Govind Ballabh Pant University of Agriculture and Technology, Pantnagar , U.K., India

3. Middle Technical University, Baquba Technical Institute, Baghdad , Iraq

Abstract

Abstract This study proposes to assess the effect of some relevant parameters of biomass pyrolysis on the numerical solutions of nthorder distributed activation energy model (DAEM) or multi reaction model (MRM). The two-step process mechanisms of pyrolysis is described by replacing the initial distribution function of f (E) with the Clayton copula. The upper limit (E∞) of ‘dE’ integral, activation energy (A), heating rate (m), and the shape and scale parameters of bivariate distribution function. Temperature ramp rate is assumed to vary linearly with time. Thermo-analytical data is obtained with the help of thermogravimetric (TG) analysis. Asymptotic technique is adopted to approximate double exponential and bivariate distribution function f (E1, E2), where E1and E2are the activation energies for bivariate scheme.

Publisher

Walter de Gruyter GmbH

Subject

General Environmental Science,Renewable Energy, Sustainability and the Environment

Link

https://www.sciendo.com/pdf/10.2478/rtuect-2018-0006

Reference37 articles.

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2. [2] Dhaundiyal A., Tewari P. C. Comparative analysis of pine needles and coal for electricity generation using carbon taxation and emission reductions. Acta Technol. Agric. 2015:18(2):29-35. doi:10.1515/ata-2015-0007

3. [3] Dhaundiyal A., Tewari P. C. Performance evaluation of throatless gasifier using pine needles as a feedstock for power generation. Acta Technol. Agric. 2016:19(1):10-18. doi:10.1515/ata-2016-0003

4. [4] Dhaundiyal A., Singh S. B. Distributed activation energy modelling for pyrolysis of forest waste using gaussian distribution. Proc. Latv. Acad. Sci. Sect. B 2016:70(2):64-70. doi:10.1515/prolas-2016-0011

5. [5] Dhaundiyal A., Tewari P. C. Kinetic Parameters for the Thermal Decomposition of Forest Waste Using Distributed Activation Energy Model (DAEM). Environment and Climate Technologies 2017:19(1):15-32. doi:10.1515/rtuect-2017-0002

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