Tesi etd-04042018-093428 |
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Tipo di tesi
Tesi di laurea magistrale
Autore
ROMENI, GIULIA
URN
etd-04042018-093428
Titolo
Building an Integrated Methodology for Water Management and Assessment in Industrial Plants: The Volvo case
Dipartimento
INGEGNERIA DELL'ENERGIA, DEI SISTEMI, DEL TERRITORIO E DELLE COSTRUZIONI
Corso di studi
INGEGNERIA GESTIONALE
Relatori
relatore Prof.ssa Martini, Antonella
relatore Dott. Appio, Francesco Paolo
relatore Dott. Appio, Francesco Paolo
Parole chiave
- acqua
- database
- gestione
- indicatori
- metodologia
- ottimizzazione
Data inizio appello
04/05/2018
Consultabilità
Non consultabile
Data di rilascio
04/05/2088
Riassunto
This thesis work is the result of a six-month stage experience in Paris in the "SWaG" (Smart Water Grid) research project, in collaboration between Ecole de Management Léonard de Vinci and Altran Research. Altran is a global innovation and engineering consulting firm operating in high technology and innovation consulting. The Altran Research department is composed of multisciplinary teams with the aim of building solutions to complex issues posed by ever-changing world.
The SwaG Project is part of the "Smart Factory" research and innovation program with the goal of creating tools to improve water management in industry. In order to incorporate in the future the use of smart technologies in water management, this work lays the foundation for the creation of a set of decision support tools for the evaluation and optimization of water use in industry, and for the best scenario choice when variations in processes technologies are conducted.
To do that, this work proposes a framework through which classify processes belonging to different domains into defined blocks, a database of performance indicators (KPIs) to control each part of the industry and a methodology with defined steps to address a new case study and to obtain information about how optimize each process using KPIs.
The SwaG Project is part of the "Smart Factory" research and innovation program with the goal of creating tools to improve water management in industry. In order to incorporate in the future the use of smart technologies in water management, this work lays the foundation for the creation of a set of decision support tools for the evaluation and optimization of water use in industry, and for the best scenario choice when variations in processes technologies are conducted.
To do that, this work proposes a framework through which classify processes belonging to different domains into defined blocks, a database of performance indicators (KPIs) to control each part of the industry and a methodology with defined steps to address a new case study and to obtain information about how optimize each process using KPIs.
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