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  1. Employees

Språkvelger

Norsk

Alessandro Campari

Alessandro Campari

PhD Candidate
Department of Mechanical and Industrial Engineering
Faculty of Engineering

alessandro.campari@ntnu.no
Verkstedteknisk, 416, Gløshaugen, Richard Birkelands vei 2b
ResearchGate Scopus Google Scholar
About Research Publications Teaching

About

EDUCATION

2021-ongoing      PhD in Mechanical and Industrial Engineering. Faculty of Engineering, Norwegian University of Science and Technology NTNU, Norway

Research Project Title: “Loss Prevention and Operational Safety of Hydrogen Technologies”

Main supervisor: Professor Nicola Paltrinieri

2018-2021      MSc in Energy Engineering – Energy Efficiency and Renewable Sources (Grade: 110/110 with honors). Department of Industrial Engineering DIN, University of Bologna, Italy

Thesis Title: “Design and optimization of an auto-thermal emergency system for cryogenic fuels”

2015-2018      BSc in Energy Engineering (Grade: 105/110). Department of Industrial Engineering DIN, University of Bologna, Italy

Thesis Title: “Tesla turbine: operating principle, dimensioning and potential applications”

WORK EXPERIENCE

2020      Internship in NIER Ingegneria S.p.A. - Systems Engineering Unit - Functional Safety

Project Title: “Functional Validation of the Mo.S.E.’s Floodgate System”

Competencies

  • Hydrogen embrittlement
  • Hydrogen safety
  • Inspection planning
  • Maintenance planning
  • Material Science
  • Material testing
  • Quantitative risk assessment

Research

The research activity of Alessandro Campari is addressed to:

  • The degradation mechanisms of hydrogen containment technologies, their modeling, and monitoring
  • The influence of such degradation mechanisms on a potential release frequency
  • The design of ad-hoc preventive safety barriers for the degradation mechanisms
  • Testing the influence of hydrogenated environments on materials' mechanical properties
  • NTNU Energy Team Hydrogen
  • Competence Centre H2Safety@BAM

SH2IFT-2 Safe hydrogen fuel handling and use for efficient implementation 2

SH2IFT-2 will explore a risk-based approach for operational safety. Materials testing will be conducted to study degradation characteristics. Modelling and measurement of degradation processes will constitute a basis for lifetime prediction.

H2 CoopStorage Development of tools enabling the deployment and management of a multi-energy renewable energy community with hybrid storage

H2 CoopStorage aims to develop methodological tools and software allowing the deployment and management of a multi-energy energy community integrating hybrid storage to be able to respond to the storage of daily and seasonal energy needs.

SUSHy Sustainability and cost-reduction of hydrogen stations through risk-based, multidisciplinary approaches

SUSHy aims to develop a new risk-based framework to integrate our understanding, analysis and reduction methods for various types of risks in order to enable the development of clean hydrogen technologies towards a more sustainable future.

Publications

  • Chronological
  • By category
  • See all publications in Cristin

2023

  • Campari, Alessandro; Nakhal Akel, Antonio Javier; Ustolin, Federico; Alvaro, Antonio; Ledda, Alessandro; Agnello, Patrizia. (2023) Lessons learned from HIAD 2.0: Inspection and maintenance to avoid hydrogen-induced material failures. Computers and Chemical Engineering
    Academic article
  • Campari, Alessandro; Alikhani Darabi, Maryam; Alvaro, Antonio; Ustolin, Federico; Paltrinieri, Nicola. (2023) A Machine Learning Approach to Predict the Materials' Susceptibility to Hydrogen Embrittlement. Chemical Engineering Transactions
    Academic article
  • Campari, Alessandro; Ustolin, Federico; Alvaro, Antonio; Paltrinieri, Nicola. (2023) A review on hydrogen embrittlement and risk-based inspection of hydrogen technologies. International Journal of Hydrogen Energy
    Academic literature review
  • Campari, Alessandro; Alvaro, Antonio; Ustolin, Federico; Paltrinieri, Nicola. (2023) Toward Risk-based Inspection of Hydrogen Technologies: a Methodology for the Calculation of the Damage Factor of Hydrogen Embrittlement. Chemical Engineering Transactions
    Academic article
  • Ustolin, Federico; Campari, Alessandro; Giannini, Leonardo; Baboi, Elena; Paltrinieri, Nicola. (2023) Identification of Consequences of Failure for Hydrogen Equipment. Chemical Engineering Transactions
    Academic article

2022

  • Campari, Alessandro; Pio, Gianmaria; Ustolin, Federico; Paltrinieri, Nicola; Salzano, Ernesto. (2022) Design and Optimization of an Emergency Auto-thermal Burner for Liquid Hydrogen. Chemical Engineering Transactions
    Academic article
  • Ustolin, Federico; Campari, Alessandro; Taccani, Rodolfo. (2022) An Extensive Review of Liquid Hydrogen in Transportation with Focus on the Maritime Sector. Journal of Marine Science and Engineering
    Academic article
  • Campari, Alessandro; Alikhani Darabi, Maryam; Ustolin, Federico; Alvaro, Antonio; Paltrinieri, Nicola. (2022) Applicability of Risk-based Inspection Methodology to Hydrogen Technologies: A Preliminary Review of the Existing Standards. Research Publishing Services
    Academic chapter/article/Conference paper

Journal publications

  • Campari, Alessandro; Nakhal Akel, Antonio Javier; Ustolin, Federico; Alvaro, Antonio; Ledda, Alessandro; Agnello, Patrizia. (2023) Lessons learned from HIAD 2.0: Inspection and maintenance to avoid hydrogen-induced material failures. Computers and Chemical Engineering
    Academic article
  • Campari, Alessandro; Alikhani Darabi, Maryam; Alvaro, Antonio; Ustolin, Federico; Paltrinieri, Nicola. (2023) A Machine Learning Approach to Predict the Materials' Susceptibility to Hydrogen Embrittlement. Chemical Engineering Transactions
    Academic article
  • Campari, Alessandro; Ustolin, Federico; Alvaro, Antonio; Paltrinieri, Nicola. (2023) A review on hydrogen embrittlement and risk-based inspection of hydrogen technologies. International Journal of Hydrogen Energy
    Academic literature review
  • Campari, Alessandro; Alvaro, Antonio; Ustolin, Federico; Paltrinieri, Nicola. (2023) Toward Risk-based Inspection of Hydrogen Technologies: a Methodology for the Calculation of the Damage Factor of Hydrogen Embrittlement. Chemical Engineering Transactions
    Academic article
  • Ustolin, Federico; Campari, Alessandro; Giannini, Leonardo; Baboi, Elena; Paltrinieri, Nicola. (2023) Identification of Consequences of Failure for Hydrogen Equipment. Chemical Engineering Transactions
    Academic article
  • Campari, Alessandro; Pio, Gianmaria; Ustolin, Federico; Paltrinieri, Nicola; Salzano, Ernesto. (2022) Design and Optimization of an Emergency Auto-thermal Burner for Liquid Hydrogen. Chemical Engineering Transactions
    Academic article
  • Ustolin, Federico; Campari, Alessandro; Taccani, Rodolfo. (2022) An Extensive Review of Liquid Hydrogen in Transportation with Focus on the Maritime Sector. Journal of Marine Science and Engineering
    Academic article

Part of book/report

  • Campari, Alessandro; Alikhani Darabi, Maryam; Ustolin, Federico; Alvaro, Antonio; Paltrinieri, Nicola. (2022) Applicability of Risk-based Inspection Methodology to Hydrogen Technologies: A Preliminary Review of the Existing Standards. Research Publishing Services
    Academic chapter/article/Conference paper

Teaching

Supervision

Co-supervisor Master's thesis:

  • Daniele Viaro, Numerical Study of the Boil-Off Rate in a Storage Tank for Liquid Hydrogen, University of Bologna
  • Maryam Alikhani Darabi, A Machine Learning Approach to predict Equipment Failure in Presence of Hydrogen, NTNU
  • Diletta Ferrazzano, Data Analytics for Hydrogen Safety Management: Support for Preparedness and Recover, NTNU - University of Bologna
  • Abhishek Subedi, An Artificial Intelligence Approach to Evaluate the Hydrogen Embrittlement Effects on Pipeline Steels, NTNU - Kathmandu University

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