Dr.ir. I. (Ivo) Bouwmans

Profile

Ivo graduated in 1986 at the Faculty of Applied Physics of TU Delft. He received his PhD in 1992 for the thesis The Blending of Liquids in Stirred Vessels. From 1991 to 1995, Ivo worked at Interduct, Delft University Clean Technology Institute. Since November 1995 he works in the group of Energy & Industry of the faculty of TPM, where he has been Director of Studies of the Bachelor studies Technische Bestuurskunde since 2005. His subjects include energy, infrastructures and complexity.

Research

Research subjects from latest to oldest: complexity in infrastructures; sustainable energy supply; micro-CHP; application of concentrated solar power; gas market tariffs; application of biomass and hydrogen; reducing the environmental impact of packaging; atmospheric dispersion of air pollution; resource flows in industry; blending of liquids of differing viscosities. 

  • Sociotechnology of Future Energy Systems
    2016/2017
    Master Systems Engineering, Policy Analysis & Man.
    ECTS: 5
  • Systeemmodellering 1
    2016/2017
    Bachelor Technische Bestuurskunde
    ECTS: 5
  • Fysische transportverschijnselen
    2016/2017
    Bachelor Technische Bestuurskunde
    ECTS: 5
  • Processen in de energiesector
    2016/2017
    Bachelor Technische Bestuurskunde
    ECTS: 5
  • Herder, PM, Bouwmans, I, Dijkema, GPJ, Stikkelman, RM & Weijnen, MPC (2008). Designing Infrastructures Using a Complex Systems Perspective. Journal of Design Research, 7(1), 17-34.
  • Heijnen, PW & Bouwmans, I (2008). Supporting the electricity network operator in the allocation process. In Paulien Herder, Petra Heijnen & Angelique Nauta (Eds.), Proceedings of the International Conference on Infrastructure Systems, Building Networks for a Brighter Future (pp. 1-5). s.l.: IEEE.
  • Weijnen, MPC & Bouwmans, I (2006). Innovations in networked infrastructures: coping with complexity. International Journal of Critical Infrastructures, 2(2/3), 121-132.
  • Bouwmans, I, Weijnen, MPC & Gheorghe, AV (2006). Infrastructures at Risk. In AV Gheorghe, M Masera, MPC Weijnen & LJ Vries (Eds.), Critical Infrastructures at Risk, Securing the European Electric Power System (Topics in Safety, Risk, Reliability and Quality, 9) (pp. 19-36). Dordrecht, The Netherlands: Springer.
  • Bouwmans, I & Hemmes, K (2002). Optimisation of Energy Systems, Hydrogen and Distributed Generation. In s.n. (Ed.), Proceedings Second Symposium on Distributed Generation: Power Systems and Market Aspects (pp. 1-7). s.l.: s.n..
  • Bouwmans, I, Kruijsen, JHJ & Weijnen, MPC (1997). Preventie in het Convenant Verpakkingen II: eindrapport. Delft University of Technology.
  • Bouwmans, I, Meeder, JP & Nieuwstadt, FTM (1995). Large–eddy simulation and practical models. International Journal of Environment and Pollution 5 (4-6), 331-337.      
  • Bouwmans, I (1992). The blending of liquids in stirred vessels. Delft University of Technology.

More publications

  • Ivo has been member of the CCFO (the TU Delft Committee for Financial Assistance for students under special circumstances) since 2008.
  • From 2005 to 2010 he was member of the Culture Team of TU Delft, an independent advisory group to the Board of the University.
  • From 1998 to October 2002 he was chair of the Onderdeelcommissie (a sub-committee of the University's Employees Council).
  • Ivo was member of the Study Programme Committee and the Examination Committee of the Faculty.

Ivo Bouwmans

Lecturer


Department:
Engineering Systems and Services

Group:
Energy & Industry

Secretary: 
Diones Supriana

Additional information

Dr.ir. I. (Ivo) Bouwmans

publications
Publications in Pure
subjects
2005 - Processes in Energy and Industrial Systems
2005 - Technology and Economy of Future Energy Systems
2005 - Mathemetical Modelling and Calculus
2006 - Processes in Energy and Industrial Systems
2006 - Mathemetical Modelling and Calculus
2006 - Technology and Economy of Future Energy Systems
2007 - Processes in Energy and Industrial Systems
2006 - Economy of Future Energy Systems
2007 - Technology and Economy of Future Energy Systems
2007 - Mathematical Modelling & Differential Equations
2007 - Designing Multi-actor Systems from an Engineering Perspective
2007 - Introduction to Designing Multi-actor Systems
2008 - Capita Selecta Energie & Industrie (4 ECTS)
2008 - Capita Selecta Energie & Industrie (6 ECTS)
2008 - Technology and Economy of Future Energy Systems
2007 - Economy of Future Energy Systems
2008 - Mathematical Modelling & Differential Equations
2008 - Economy of Future Energy Systems
2008 - Processes in Energy and Industrial Systems
2009 - Technology and Economy of Future Energy Systems
2009 - Economy of Future Energy Systems
2009 - Processes in Energy and Industrial Systems
2009 - Agent Based Modeling of Complex Adaptive Systems - Basics
2009 - Capita Selecta Energie & Industrie (6 ECTS)
2009 - Capita Selecta Energie & Industrie (4 ECTS)
2009 - Agent Based Modeling of Complex Adaptive Systems - Advanced
2009 - Mathematical Modelling & Differential Equations
2009 - TB-week
2010 - Agent Based Modeling of Complex Adaptive Systems - Advanced
2010 - Agent Based Modeling of Complex Adaptive Systems - Basics
2010 - Technology and Economy of Future Energy Systems
2010 - Capita Selecta Energie & Industrie (6 ECTS)
2010 - Capita Selecta Energie & Industrie (4 ECTS)
2010 - Mathematical Modelling & Differential Equations
2010 - Economy of Future Energy Systems
2010 - TB-week
2010 - Processes in Energy and Industrial Systems
2011 - Economy of Future Energy Systems
2011 - Processes in Energy and Industrial Systems
2011 - TB-week
2011 - Mathematical Modelling & Differential Equations
2011 - Skills
2011 - Skills
2011 - Technology & Economy of Future Energy Systems
2013 - Processes in Energy and Industrial Systems
2013 - Economy of Future Energy Systems
2013 - Systems Modelling 1
2014 - Economy of Future Energy Systems
2014 - Transport Phenomena
2014 - Processes in the Energy Sector
2016 - Transport Phenomena
2016 - Processes in the Energy Sector
2015 - Transport Phenomena
2015 - Processes in the Energy Sector
2015 - Technology & Economy of Future Energy Systems
2016 - TB-Week
2016 - Systems Modelling 1
2012 - TB-week
2012 - Skills
2012 - Skills
2012 - Processes in Energy and Industrial Systems
2013 - TB-Week
2012 - Technology & Economy of Future Energy Systems
2014 - Technology & Economy of Future Energy Systems
2012 - Economy of Future Energy Systems
2012 - Mathematical Modelling & Differential Equations
2014 - Systems Modelling 1
2016 - Processes in the Energy Sector
2017 - CoSEM Master Thesis
2017 - Systems Modelling 1
2017 - Systems Modelling 1
2017 - Transport Phenomena
2017 - Processes in the Energy Sector
2017 - Processes in the Energy Sector
2017 - Transport Phenomena
2017 - Sociotechnology of Future Energy Systems
2017 - Sociotechnology of Future Energy Systems
2016 - Sociotechnology of Future Energy Systems
2016 - Systems Modelling 1
2015 - TB-Week
2018 - Systems Modelling 1
2018 - Systems Modelling 1
2018 - Sociotechnology of Future Energy Systems
2018 - Sociotechnology of Future Energy Systems
2018 - CoSEM Master Thesis
2015 - Systems Modelling 1
2018 - Transport Phenomena
2018 - Transport Phenomena
2018 - Processes in the Energy Sector
2018 - Processes in the Energy Sector
2015 - Economy of Future Energy Systems
2017 - Economy of Future Energy Systems
2019 - Processes in the Energy Sector
2019 - Processes in the Energy Sector
2019 - CoSEM Research Challenges
2018 - CoSEM Research Challenges
2019 - Sociotechnology of Future Energy Systems
2019 - Sociotechnology of Future Energy Systems
2019 - Systems Modelling 1
2019 - Systems Modelling 1
2019 - Transport Phenomena
2019 - Transport Phenomena
2019 - CoSEM Research Challenges
2019 - Introduction to Design in Complex Systems
2019 - Sociotechnology of Future Energy Systems
2019 - Sociotechnology of Future Energy Systems
2019 - CoSEM Master Thesis
2018 - Sociotechnology of Future Energy Systems
2018 - Sociotechnology of Future Energy Systems
2018 - Introduction to Design in Complex Systems
ancillary activities
No secondary work -

2017-01-01 - 2019-01-01

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