Energies for Ecodistricts (SEM-GSE / M2-ENTECH) - 5EU5DH7

Objectif(s)

Understanding, analyze and sizing of:
• Gas network (Hydrogen production, storage and distribution
• Heat network
• Heat storage

Contenu(s)

• Power to Gas and Gas to Power
  o Hydrogen production from fossil fuel and renewable energy
  o Hydrogen storage and transport
  o Hydrogen safety
  o Laboratory work
  o Conferences

• An Introduction to District Heating
  o The fundamental idea of district heating
  o Demand
  ? Heat demand (space heating, domestic hot water supply, industrial heat demands, other demands)
  ? Heat loads
  ? Substation
  ? One-way
  ? Two-way
  o Distribution
  ? District heating network
  ? Two-pipes, three-pipes and four-pipes systems
  ? The anergy-grid concept
  ? Distribution heat losses and pressure losses
  ? Non-meshed vs meshed grids
  ? Grid control and operating modes
  o Heat supply
  ? Base and Peak generators + thermal storage
  ? Boilers
  ? CHP (Combined Heat And Power)
  ? Solar
  ? Geothermal
  ? Heat-pump
  ? Intelligent control of district heating systems
  ? Expert law vs. optimal control
  ? Short-term heat load forecasting
  ? Production and distribution optimal control
  ? Demand-side management in district heating

• Réseaux de chaleur solaires et stockage = « Solar District Heat and storage »
  o Integration of solar thermal heat in district heating networks: solar collectors, dimensioning, storage needs, economical analysis, existing examples
  o Review of the main processes for thermal energy storage : from material properties to the system, from low to high temperature, from short duration to interseaonnal storage..
  o Project/case study: parametrical investigation of solar heat production in a district heating system

• Systems reliability, dependability and safety
  o Probabilistic failure models and lifetime modelling of engineering components
  o Qualitative approaches to system reliability analysis (FMECA, ...)
  o Reliability modelling and analysis of systems and networks of independent components (Fault Tree Analysis, Reliability Block Diagrams, Event Tree Analysis, Structure Function, Minimal Cutsets, Importance Measures)
  o Markov processes for systems and networks reliability modelling (systems with dependent components, passive redundancies, tested components, ...)
  o Reliability of maintained systems and maintenance policies modelling
  o Reliability of safety instrumented systems (IEC 61508)
  Bibliography
• Marvin Rausand, Arnljot Hoyland, System Reliability Theory - Models, Statistical Methods and Applications. Wiley Series in Probability and Statistics. 2004.
• J.D. Andrews, T.R. Moss, Reliability and Risk Assessment. Longman Scientific & Technical. 1993
• M. Modarres, What every engineer should know about Reliability and Risk Analysis. Marcel Dekker. 1993

Heat transfer and thermodynamic