Title
Razvoj modela za upravljanje tokovima industrijskog otpada zasnovanog na formiranju eko-industrijskih mreža
Creator
Luković, Ana V. 1979-
Copyright date
2016
Object Links
Select license
Autorstvo-Nekomercijalno-Bez prerade 3.0 Srbija (CC BY-NC-ND 3.0)
License description
Dozvoljavate samo preuzimanje i distribuciju dela, ako/dok se pravilno naznačava ime autora, bez ikakvih promena dela i bez prava komercijalnog korišćenja dela. Ova licenca je najstroža CC licenca. Osnovni opis Licence: http://creativecommons.org/licenses/by-nc-nd/3.0/rs/deed.sr_LATN. Sadržaj ugovora u celini: http://creativecommons.org/licenses/by-nc-nd/3.0/rs/legalcode.sr-Latn
Language
Serbian
Cobiss-ID
Theses Type
Doktorska disertacija
description
Datum odbrane: 23.11.2016.
Other responsibilities
mentor
Glišović, Srđan 1964-
član komisije
Stanković, Miomir 1949-
član komisije
Stojiljković, Evica 1976-
član komisije
Petrović, Goran 1974-
član komisije
Velimirović, Lazar
Academic Expertise
Tehničko-tehnološke nauke
University
Univerzitet u Nišu
Faculty
Fakultet zaštite na radu
Group
Katedra za kvalitet radne i životne sredine
Alternative title
Development of an eco-industrial network-based model for managing industrial waste flow
Publisher
[A. V. Luković]
Format
XVIII, 267 listova
description
Biografija autora: list 263
description
Environmental Management
Abstract (en)
The Dissertation comprises the development of a new model for regional management of secondary raw materials within the concept of by-product exchange, with the aim to develop a functional eco-industrial network. As a part of the model for industrial waste flow management, a software platform for processing data on secondary materials in the framework of an industrial sub-sector or enterprise network was created. Based on geographic location and the available quantities of required by-products, the optimal location of a new industrial unit (by-product consumer) of a given capacity was determined, in terms of effective supply and/or minimal transportation costs, acknowledging regional sustainability priorities. The main goal of the research was creation of a model for solving the location problem of waste (secondary materials) treatment facilities, taking in consideration the territorial distribution of raw materials, the type and the quantities of raw materials and the distance between the industries, but simultaneously considering regional social, economic and environmental issues. The specific goal of the research was to design an appropriate model and software tool capable of analyzing all relevant industrial plants within an observed region according to the type of required secondary material and the amount of waste they generate, but in context of regional sustainability.
Methods of global optimization, i.e. heuristic algorithms were applied to determine the initial location of by-product treatment facility. The limited capacity model of p-median and other similar models were used for initial network optimization. For the final placement of the waste facility, after the initial priority optimization by p-median model, the analytic hierarchy process (AHP) was used as a multi-criteria decision support method of choice for the regional management of industrial waste. Previously, the economic, social and environmental protection criteria were defined as a necessary prerequisite for decision-making during integrated resource planning and preventive mitigation of the impacts that arise in an industrial area and its immediate surroundings.
The developed model for industrial by-product flow management, based on eco-industrial network operation principles, constitute a foundation for design of a software tool / a decision support system which might contribute improvement of the current by-product management practices in the region.
Authors Key words
Industrijski otpad, eko-industrijske mreže, reverzna logistika, održiva logistika, lokacijska optimizacija, model p medijana, višekriterijumsko odlučivanje
Authors Key words
Industrial waste, eco-industrial networks, reverse logistics, sustainable logistics, location optimization, p median model, multi-criteria decision making
Classification
519.8:628.54:504.5 (043.3)
Subject
519.8:628.54:[338.45:502]
Type
Elektronska teza
Abstract (en)
The Dissertation comprises the development of a new model for regional management of secondary raw materials within the concept of by-product exchange, with the aim to develop a functional eco-industrial network. As a part of the model for industrial waste flow management, a software platform for processing data on secondary materials in the framework of an industrial sub-sector or enterprise network was created. Based on geographic location and the available quantities of required by-products, the optimal location of a new industrial unit (by-product consumer) of a given capacity was determined, in terms of effective supply and/or minimal transportation costs, acknowledging regional sustainability priorities. The main goal of the research was creation of a model for solving the location problem of waste (secondary materials) treatment facilities, taking in consideration the territorial distribution of raw materials, the type and the quantities of raw materials and the distance between the industries, but simultaneously considering regional social, economic and environmental issues. The specific goal of the research was to design an appropriate model and software tool capable of analyzing all relevant industrial plants within an observed region according to the type of required secondary material and the amount of waste they generate, but in context of regional sustainability.
Methods of global optimization, i.e. heuristic algorithms were applied to determine the initial location of by-product treatment facility. The limited capacity model of p-median and other similar models were used for initial network optimization. For the final placement of the waste facility, after the initial priority optimization by p-median model, the analytic hierarchy process (AHP) was used as a multi-criteria decision support method of choice for the regional management of industrial waste. Previously, the economic, social and environmental protection criteria were defined as a necessary prerequisite for decision-making during integrated resource planning and preventive mitigation of the impacts that arise in an industrial area and its immediate surroundings.
The developed model for industrial by-product flow management, based on eco-industrial network operation principles, constitute a foundation for design of a software tool / a decision support system which might contribute improvement of the current by-product management practices in the region.
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