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Dr. Mohammad Rahiminejad

Profile

Dr. Mohammad Rahiminejad Wissenschaftlicher Mitarbeiter

Contact

Links

  • Contact hours Monday
    Tuesday
    Wednesday
    Thursday
    Friday
  • Address Berner Fachhochschule
    School of Architecture, Wood and Civil Engineering
    Institut Holzbau
    Solothurnstrasse 102
    2504 Biel

Activities

  • Fluid Mechanics and Heat Transfer Analysis

  • Building Physics Simulations and Measurements

  • Computational Fluid Dynamic Simulations (CFD)

  • Thermo-hydrodynamic and Energy Performance Analysis of BIPV Systems

Teaching

  • Lecturer: "Making the campus of tomorrow" (ENAC Week) | EPFL, Switzerlad | 2021 and 2022

  • Teacher Assistant: "Thermodynamics of comfort in buildings" (CIVIL 450) | EPFL, Switzerland | 2019-2022

  • Teacher Assistant: "Building energetics" (ENG 445) | EPFL, Switzerland | 2019-2022

  • Teacher Assistant: "Advanced Mathematics" | Sharif University of Technology, Iran | 2015

Research

  • Thermo-fluid mechanics, Building Physics, Computational Fluid Dynamics (CFD), BIPV Applications, Tunnel Ventilation Systems

CV

  • Mohammad Rahiminejad works at BFH as a Research Associate to address problems raised in various industrial projects from the thermo-fluid mechanics and building physics perspectives, using an interdisciplinary approach by undertaking numerical analyses, CFD simulations, and experimental measurements.
    Mohammad holds a Ph.D. in Mechanics from EPFL. He has a multidisciplinary background ranging in various fields including sustainable energy performance of buildings, ventilation in underground tunnels and subway platforms, nanofluid materials, and bio-fluid mechanics.
    In his Ph.D. thesis, he investigated the impact of the ventilated air-space behind traditional and BIPV façades on the thermo-hydrodynamic and energy performance of building wall structures.
    Before starting his Ph.D., he worked on industrial-oriented research projects to apprise decisions on the design of air conditioning systems in underground intercity/subway tunnels using CFD simulations.
    In his Master's thesis, Mohammad worked on water purification through graphene membranes using Molecular Dynamics (MD) simulations.
    During his Bachelor's degree, for the first time, he analyzed the pressure and velocity distribution of airflow in the human upper airway during sneezing using CFD simulations.
  • 2022-Present | Scientific Collaborator | Bern University of Applied Sciences (BFH)
  • 2018-2022 | Doctoral Assistant | École polytechnique fédérale de Lausanne (EPFL)
  • 2015-2018 | Project Manager Assistant | Shiraz University/ Shiraz Metro Co./ Tehran-Shomal Freeway Co.
  • 2016-2017 | Mechanical Engineer | Mitrasun Solar Energy Systems Design Co.
  • 2015-2016 | Co-founder | Koosha Sanaat Rayeen Co.
  • 2018-2022 | Doctoral of Philosophy (Ph.D.) | École polytechnique fédérale de Lausanne (EPFL)/Doctoral Program in Mechanics
  • 2013-2015 | Master of Science | Sharif University of Technology/School of Mechanical Engineering
  • 2009-2013 | Bachelor of Science | Shiraz University/School of Mechanical Engineering
  • Invited by scientific journals for critical reviewing of papers:
    - Building and Environment
    - International Journal of Energy Research
    - Journal of Building Physics
    - Journal of Architectural Engineering
    - Biomechanics and Modeling in Mechanobiology
  • Solar System Design Certification from ITVTO (Iran Technical & Vocational Training Organization)

Projects

  • ASHRAE 1759-RP: Impact of airflow on the thermal performance of air-spaces behind claddings, Sponsored by the TC 4.4 committee «Building Materials and Building Envelope» of ASHRAE

  • Experimental study of hydrodynamic and thermal performance of ventilated wall structures, Field study measurements in the Controlled Environments for Living Lab Studies (CELLS) in the Smart Living Lab, Fribourg, Switzerland

  • Detailed U-value analysis of a building prototype according to the criteria established by ISO 6946, ISO 9869, ASTM 1363, and SIA 180, Field study measurements in the Controlled Environments for Living Lab Studies (CELLS) in the Smart Living Lab, Fribourg, Switzerland

  • Evaluation of the impact of wall structure on the transient thermal response of the building envelopes in the EPFL campus

  • Assessment of thermal and electrical performance of BIPV façades using simplified simulations

  • Effects of a Building Integrated Photovoltaic system on the thermal performances of a ventilated building envelope

  • Design of the air conditioning systems of tunnels and stations in different types of subway platforms

  • Investigation of the effects of cross passages in the subway tunnels during fire using CFD methods

  • Numerical simulation of water purification from pollutant ions with a graphene membrane

  • Computer simulations of pressure and velocity fields in human upper airway during sneezing

Publications

  • Building Physics and CFD Simulations [Research Experience at BFH]:
    1. "Wooden basements; hygrothermal performance analysis using in-field measurements and numerical simulations". Building and Environment. 2024.
    2. "Hygrothermal Performance Analysis of Wooden Basements under Critical Conditions". Buildings. 2024.

    Sustainable Energy Performance of Buildings [Ph.D. at EPFL]:
    3. "Experimental study of the hydrodynamic and thermal performance of ventilated wall structures". Building and Environment. 2023.
    4. "Numerical and experimental study of dynamic thermal resistance of ventilated air-space behind passive and active façades". Building and Environment. 2022.
    5. "Measuring the effective thermal resistance of ventilated air-spaces behind common wall assemblies: theoretical uncertainty analysis and recommendations for the hot box method modifications (ASHRAE 1759-RP)". Science and Technology for the Built Environment. 2022.
    6. "Performance of lightweight and heavyweight building walls with naturally ventilated passive and active facades". Energy & Buildings. 2022.
    7. "Thermal resistance of ventilated air-spaces behind external claddings; definitions and challenges". Science and Technology for the Built Environment. 2021.
    8. "Review on ventilation rates in the ventilated air-spaces behind common wall assemblies with external cladding". Building and Environment. 2021.


    Thermo-fluid Mechanics in Ventilation Systems [Work Experience before Ph.D.]:
    9. "CFD simulations of a semi-transverse ventilation system in a long tunnel ". Underground Space. 2023.


    Fluid Mechanics in Water Filtration [MSc. Thesis]:
    10. "Transport of water contaminated with various ions through nanoporous graphene: A Molecular dynamics simulation". Transport in Porous Media. 2023.
    11. "Numerical Simulation of Salt Water Passing Mechanism through Nanoporous Single-Layer Graphene Membrane". Chemical Product and Process Modeling. 2015.


    Fluid Mechanics in Sneezing Analysis [BSc. Thesis]:
    12. "Computer Simulations of Pressure and Velocity Fields in Human Upper Airway during Sneezing". Computers in Biology and Medicine. 2016.

  • Building Physics and CFD Simulations [Research Experience at BFH]:
    1. "Optimization of a ventilation system integrated into a window frame using CFD simulations". 2023, Journal of Physics Conference Series. 2600(8):082016.


    Sustainable Energy Performance of Buildings [Ph.D. at EPFL]:
    2. "Heat recovery from ventilated passive and active facades: A numerical case study". 2022, 14th REHVA HVAC World Congress (CLIMA), Netherlands.
    3. "Thermal resistance of the ventilated air-spaces behind external claddings; theoretical definition and a parametric study". Journal of Physics Conference Series. 2021, 2069(1):012197.
    4. "In-situ measurements of the U-value of a ventilated wall assembly ". Journal of Physics Conference Series. 2021, 2069(1):012212.
    5. "Transient thermal response of opaque building envelope elements: EPFL campus case study". Journal of Physics Conference Series. 2021, 2042(1):012080.
    6. "Assessment of thermal and electrical performance of BIPV façades using simplified simulations". Journal of Physics Conference Series. 2021. 2042(1):012081.
    7. "Dynamic Thermal Performance of the BIPV Facades". ASHRAE Transactions. 2021, 127,170-179.
    8. "Impact of the Ventilated Cavity on the Thermal Performance of Traditional Wall Structures". ASHRAE Transactions. 2021, 127, 187-195.


    Thermo-fluid Mechanics in Ventilation Systems [Work Experience before Ph.D.]:
    9. "CFD simulations of longitudinal ventilation of a road tunnel in congested traffic condition". World Tunnel Congress. 2019.


    Fluid Mechanics in Water Filtration [MSc. Thesis]:
    10. "Molecular Dynamics simulation of water purification using monolayer graphene membrane". 12th International Conference on Membrane Science and Technology. 2015.

Memberships

Awards

Granted for the precious collaboration in the doctoral work of exceptional quality and to attract highly qualified researchers.

• 2018 École polytechnique fédérale de Lausanne (EPFL)
• 2018 Australian National University (ANU)
• 2018 University of Oxford
• 2017 University of Oxford

Awarded by Iran's National Elites Foundation

Ranked 27th in the Energy Conversion orientation among more than 12,000 participants in the national Universities entrance exam for M.Sc. degree

Ranked 5th among 50 Fluid Mechanics Engineering students

Ranked within the 1% participants among more than 400000 in the national Universities entrance exam for B.Sc. degree

Supervised theses

  • Supervision of Joel Karolin: Computational fluid dynamic (CFD) simulation of peripherical ventilation integrated into a wood-metal composite window 2022-2023

  • Co-supervision of Cecile Berquand: The impact of wall structure on the transient thermal response of the building envelopes in the EPFL campus 2021

  • Co-supervision of Romain Schindelholz: Assessment of thermal and electrical performance of BIPV façades using simplified simulations 2021

  • Co-supervision of Alexandre Paris: Effects of a Building Integrated Photovoltaic system on the thermal performances of a ventilated building envelope 2020

  • Co-supervision of Basir Borhani and Océane Martin: Review and performance analysis of the new generation of ventilated building facades with integrated photovoltaics 2020

  • Co-supervision of Abdu Rahmati: Ventilated building skins; Review and performance evaluation, Master semester project 2019

Language skills and intercultural knowledge

  • Persian - Native or bilingual proficiency
  • English - Full professional proficiency
  • German - Limited working proficiency
  • French - Elementary proficiency