Subject
Renewable Energy in Buildings
General details of the subject
- Mode
- Face-to-face degree course
- Language
- English
Description and contextualization of the subject
The course is focused on renewable energies and their design, installation and connection to building HVAC systems. The selection and correct sizing of renewable energy systems for buildings will be learned, based on the local weather conditions, building orientation, building use and others. The course will include solar heating and cooling systems, biomass heating systems and geothermal/aerothermal heating and cooling systems. Special attention will be paid to the combination of these three technologies to maximize the energy performance of the building. The connection of these renewable technologies to conventional HVAC systems is another key point of the course. In addition, a specific part devoted to solar PV systems and their integration in buildings will be included.Teaching staff
Name | Institution | Category | Doctor | Teaching profile | Area | |
---|---|---|---|---|---|---|
ANTXUSTEGI BENGOETXEA, MIREN MIRARI | University of the Basque Country | Profesorado Agregado | Doctor | Bilingual | Chemical Engineering | mirari.antxustegi@ehu.eus |
DIARCE BELLOSO, GONZALO | University of the Basque Country | Profesorado Agregado | Doctor | Bilingual | Thermal Motors and Machines | gonzalo.diarce@ehu.eus |
GARCIA ROMERO, ANE MIREN | University of the Basque Country | Profesorado Pleno | Doctor | Bilingual | Materials Science and Metallurgical Engineering | anemiren.garcia@ehu.eus |
URRESTI GONZALEZ, AITOR | University of the Basque Country | Profesorado Agregado | Doctor | Bilingual | Thermal Motors and Machines | aitor.urresti@ehu.eus |
Competencies
Name | Weight |
---|---|
Que los estudiantes posean y comprendan conocimientos del comportamiento energético de la edificación de forma integrada y que, con ellos, sepan aplicarlos con el objetivo de ser originales en el desarrollo y/o aplicación de ideas en un contexto de investigación e innovación. | 100.0 % |
Study types
Type | Face-to-face hours | Non face-to-face hours | Total hours |
---|---|---|---|
Lecture-based | 40 | 60 | 100 |
Applied classroom-based groups | 20 | 30 | 50 |
Training activities
Name | Hours | Percentage of classroom teaching |
---|---|---|
Exercises | 10.0 | 100 % |
Expositive classes | 20.0 | 100 % |
Student's personal work | 30.0 | 25 % |
Text analysis | 30.0 | 0 % |
Working with it equipment | 30.0 | 25 % |
Assessment systems
Name | Minimum weighting | Maximum weighting |
---|---|---|
Attendance at classes | 15.0 % | 15.0 % |
Practical tasks | 30.0 % | 30.0 % |
Works and projects | 55.0 % | 55.0 % |
Learning outcomes of the subject
The course applies a practical approach to explain how renewable energy systems can be installed in the building and connected to HVAC systems.LO1. Developing general knowledge about the following renewable technologies: solar thermal, biomass and heat pump based technologies.
LO2. Acquire notions about the possibilities that exist to integrate renewable energies in new and existing buildings, taking into account their interaction with conventional heating and conditioning systems.
LO3. Acquire modeling and simulation skills for renewable energy technologies in building energy simulation environments.
Ordinary call: orientations and renunciation
The evaluation will be based on practical works/deliveries related to each block of contents of the subject. They will be divided into work to be done in class and work to be performed outside the classroom.Class work accounts for 30% of the final grade, while the work to be performed out of the classroom accounts for 55%. Class attendance is scored up to 15%.
Extraordinary call: orientations and renunciation
The evaluation will be carried out in the same way as the ordinary call.Temary
0. Introduction to renewable energy systems in buildingsA. SOLAR THERMAL
1. Solar thermal systems
2. Solar collectors
3. Accumalation and auxiliary system
4. Hydraulic circuit
5. Regulation, control and behaviour
6. System sizing
7. Frío solar
8. Solar systems in district heating
B. BIOENERGY
1. Types of Biomass for buildings
2. Types of boilers for buildings
3. The logistics of biomass supply
4. Large-scale biomass systems for district heating
C. HEAT PUMP TECHNOLOGIES
1. Introduction to heat pump technology
2. Heat pumps as renewable energy system
3. Heat system classification. Geothermal/Aerothermal
4. Integration of heat pumps in buildings and district heating. Characteristics
D. SOLAR PV SYSTEMS
Bibliography
Compulsory materials
Basic bibliography
- IEA. Technology Roadmap: Solar Heating and Cooling (2012)- Solar engineering of thermal processes / John A. Duffie, William A. Beckman. John Wiley & Sons, Hoboken, New Jersey : 2006.
- Guía Técnica. Diseño de sistemas de bomba de calor geotérmica. IDEA
- Planning and Installing Bioenergy Systems, German Solar Energy Society (DGS) and ECOFYS, Earthscan (2009)2
- Chemical Energy Storage, Robert Schogl (Editor). Ed. Walter de Gruyter (2012). ISBN. 9783110264074.3. Robert Schlögl
In-depth bibliography
Journals
- Energy and Buildings- Energy Policy
- Building and Environment
- Applied Energy
- Renewable Energy
- Renewable and Sustainable Energy Reviews
- Solar Energy
Links
http://www.rhc-platform.org/https://www.nrel.gov/