Subject description - 125MEC
Summary of Study |
Summary of Branches |
All Subject Groups |
All Subjects |
List of Roles |
Explanatory Notes
Instructions
| 125MEC | Simulation of Building Energy Performance | ||
|---|---|---|---|
| Roles: | PV | Extent of teaching: | 1P+1C |
| Department: | 11125 | Language of teaching: | CS |
| Guarantors: | Kabele K. | Completion: | KZ |
| Lecturers: | Kabele K., Urban M. | Credits: | 4 |
| Tutors: | Urban M. | Semester: | Z |
Web page:
https://moodle-vyuka.cvut.cz/Anotation:
The course is aimed at explaining the issues of modelling and simulation of energy behaviour of buildings. Students will be introduced to an overview of tools and methodologies for solving these problems and learn how to use the simulation software DesignBuilder. In addition, they will be introduced to climate data, materials, construction and other factors affecting building behaviour. The aim of the course is to provide students with basic knowledge and practical experience in modelling and simulating building energy behaviour.Study targets:
- To introduce students to the issues of modelling the behaviour of buildings in terms of energy and indoor environment and to present an overview of tools and methodologies for solving these problems. - To teach students the basic principles for the use of tools to simulate the energy behaviour of buildings. - Introduce students to the DesignBuilder simulation software and teach them to understand its principles and use for solving various engineering problems. - Introduce students to climate data, materials, construction, optical properties, and other factors affecting building behavior. - To expose students to the simulation of HVAC systems and the use of energy system models and fluid flow visualization. - Provide students with hands-on experience using DesignBuilder softwareContent:
The student will learn about modelling of dynamic phenomena in HVAC energy systems in relation to buildings and methods and means for optimising the design of HVAC systems and buildings in terms of energy behaviour.Course outlines:
Framework content of lectures: - Introduction to building behaviour modelling in terms of energy and indoor environment, overview of tools, basics of problem solving methodology using simulation. Overview of common engineering problems solvable with simulation tools. Overview of simulation tools. - Basic principles of when to use BEPM; Case study of an area cooling application; Tools and methods for modelling and simulation of building energy behaviour; Modelling of building operations. Orientation to the principles of model creation in the simulation software DesignBuilder. Use of DesignBuilder simulation software for solving various problems. - Climatic data; materials and construction; optical properties; internal gains and loads. - Simulation of HVAC systems, Case study of energy system model, Visualization of fluid flow. - Experience of using DesignBuilder in practice. A detailed lecture schedule is given on the course moodle.Exercises outline:
Framework content of the tutorial: - Introduction to DesignBuilder - Orientation in the way of input data input, simulation parameters, generation and processing of outputs. Detailed and simplified model - Analysis of the finished model, allternatives of input parameters, used to calculate heating and cooling capacity, analysis of temperatures during the year. - Creation of the building model. - Detailed HVAC model Creation of schematic, parameter settings, data analysis. - Processing of the actual task The detailed content of each tutorial is given on the course moodle.Literature:
:http://tzb.fsv.cvut.cz/?mod=podklady :http://www.ibpsa.org - Publications :Best Directory | Building Energy Software Tools". - Instruktážní videa k programu DesignBuilder https://designbuilder.co.uk/training/tutorials www.buildingenergysoftwaretools.com. !Building performance simulation for design and operation. Expanded second edition. Editor Joannes Laurentius Maria HENSEN, editor Roberto LAMBERTS. London: Routledge, Taylor & Francis Group, 2019. ISBN 978-0-429-68854-6. ?2020 ASHRAE Handbook Heating, Ventilating and Air-Conditioning Systems and Equipment, 2020 ASHRAE Atlanta. ISBN 978-1-947192-53-9 ASHRAE Fundamentals Handbook 2021 - Chapter 30 - NONRESIDENTIAL COOLING AND HEATING LOAD CALCULATIONS ASHRAE Fundamentals Handbook 2021 - Chapter 32 - ENERGY ESTIMATING AND MODELLING METHODS ?de Wilde, Piete. Building Performance Analysis. Chichester: Wiley-Blackwell. pp. 325–422. ISBN 978-1-119-34192-5, 2018 ?Clarke J.A. Energy Simulation in Building Design ISBN 0-7506 5082 6, 2001 Butterworth HeinemannRequirements:
There are no special requirements for students admitted to the Intelligent Buildings program; for students in other programs, consult the course guarantor.Keywords:
mathematical modelling, energy behaviour, environmental behaviour, buildings, technical systems, climatic conditions, zoning, heating, cooling, fluid systems, air handling systems, design optimisation, CFD visualisation, fluid flow, engineering tasks, energy performance, sustainability. Subject is included into these academic programs:| Program | Branch | Role | Recommended semester |
| MPIB_2020 | Common courses | PV | 2 |
| MPIBNEW | Common courses | PV | 2 |
| Page updated 24.4.2024 10:02:35, semester: Z/2023-4, Z/2024-5, L/2023-4, Send comments about the content to the Administrators of the Academic Programs | Proposal and Realization: I. Halaška (K336), J. Novák (K336) |