- Address
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E.105
Steingruberstraße 1a
91746 Weidenbach - Functions
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Programme Director Master of Environmental Engineering (MUT)
Member of the examination board of the Environmental Engineering department
Representative of the UT department for public relations
Responsible for PLV lectures
Head of the Energy and Water Technology Centre E.011
Head of the ZIM Biomeiler project
Member of the extended institute management of the Biomass Institute Triesdorf
- Climate Neutral Energy Systems, Engineering Water Management (Lecture, Practical Course)
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Materials
- Climate Neutral Energy Systems (Lecture, Exercise)
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Life cycle assessment
- Environmental Engineering (practical course, lecture, exercise)
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Physics and Energy Technology
Bioenergy (SSP EE)
- Technology of Renewable Energies (Lecture, Exercise)
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Biogas I
Thermal energy efficiency
Solar thermal energy
Bioenergy II
- Agricultural Engineering, Agriculture (Lecture, Exercise)
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EE - Biomass
- Master Environmental Engineering ( Lecture, Exercise)
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Process simulation
Sustainable Mobility, Lecture: Leightweight Design
- Master Environmental Engineering, Energy Management and Technology ( Lecture, tutorial)
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Biomass and biogas plants
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Teaching areas
Professor for Energy and Materials Engineering
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Teaching and study objectives
The aim is to take a holistic view of the use of renewable energies, with a focus on bioenergy and solar thermal energy, for the provision of final energy (heating, cooling, power/electricity). In addition to the technical processes, economic and ecological aspects are also dealt with. The analysis refers on the one hand to Germany, but also to the EU countries and the rest of the world.
In addition, the rational use of energy (incl. approaches to energy demand reduction and load control) represents another important pillar of future energy supply, which is taught using examples from industry with a focus on thermal energy efficiency by means of exercises and external courses.
The fundamentals of materials are taught in theory and illustrative practical experiments in the 3rd semester of the bachelor's degree programmes KE and IW. The latter cover the topics:
- Heat treatment of metals (steel, aluminium)
- Behaviour of metallic two-material mixtures
- Detection of plastics (thermoplastics, thermosets)
- Use of ultrasonic testing sensors to detect defects and for level measurement
The basics of life cycle assessment are taught in the KE course in the 4th semester; this is done, among other things, with the help of the LC(I)A software programme:
- UMBERTO® LCA+ (energy and life cycle assessment calculation programme of ifu Hamburg GmbH).
In the Master's programme in Environmental Engineering (MUT), a more in-depth insight into process simulation is provided in the summer semester by means of exercises with the following software programmes:
- EBSILON® (cycle calculation programme of STEAG Energie Systeme GmbH)
- UMBERTO® LCA+ (energy and life cycle assessment calculation programme by ifu Hamburg GmbH)
- POLYSUN® (RE system planning programme of Vela Solaris GmbH)
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Bachelor, project and master theses
We are happy to supervise Bachelor's theses from the degree programmes Technology of Renewable Energies (TE), Water Technology (WT), Environmental Engineering (US) and project and Master's theses from the Master's degree programme Environmental Engineering (MUT) or Energy Management and Technology (EMT). The following subject areas (in alphabetical order) can be served:
- Bioenergy, solar thermal energy, photovoltaics, geothermal energy, hybrid systems.
- 3D printing (Ulitmaker S5), light section scanner EinScan-SP (Platinium) and photogrammetry programme Metashape Professional
- De-/ Central thermal storage and local heating networks
- Energy management / energy audit (e.g. according to DIN EN ISO 50001, 16247-1)
- Membrane separation processes for separating CO2 from weak gases
- Measurement and control technology (e.g. with LabView)
- Life cycle assessment (LCA, LCIA, KEA, etc.)
- Potential analyses (individual objects or supply areas)
- Process chain analysis
- Process simulation (Polysun®, Ebsilon®, Umberto® LCA+)
- Thermal energy efficiency (industry, tertiary sector, private sector) / heat integration (e.g. waste heat utilisation at biogas plants)
- Combustion plant for biogenic solid fuels with condensing technology (incl. emission measurements)
- Hydrogen technology (including fuel cells, H2 sources)
- Materials technology (materials testing, process optimisation)
An overview of the 20 team-oriented project theses (EMT), 20 project studies (MUT), 1 diploma thesis, 115 bachelor theses and 16 EMT and 18 MUT master theses that I have supervised to date can be found under student theses and dissertations (see below).
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Student research projects and theses
Topics worked on:
- 20 project studies (Master's degree programme EMT) from summer semester 2012: see "List of project studies in the Master's degree programme EMT_10.2021.pdf".
- 20 project studies (Master's programme MUT) as of summer semester 2017: see "List of project studies in the Master's programme MUT_10.2021.pdf".
- 1 diploma thesis (degree programme Environmental Engineering / US) in winter semester 2011/12: "Investigation of the industrial process for cooling water supply during the extrusion of profiles and hoses".
- 95 Bachelor theses (degree programme Technology of Renewable Energies / TE) as of WS 2011/12: see "List of Bachelor theses in the degree programme TE_10.2021.pdf".
- 16 Bachelor theses (degree programme Environmental Engineering / US) as of summer semester 2013: see "List of Bachelor theses in the degree programme US_10.2021.pdf".
- 2 Bachelor theses (degree programme Water Technology / WT) from summer semester 2017: see "List of Bachelor theses in the degree programme WT_05.2018.pdf".
- 3 Bachelor theses (degree programme Agriculture / LT) from summer semester 2019: see "List of Bachelor theses in the degree programme LT_10.2021.pdf".
- 16 Master's theses (degree programme Energy Management and Technology / EMT) as of summer semester 2013: see "List of Master's theses in the degree programme EMT_10.2021.pdf".
- 18 Master's theses (degree programme Environmental Engineering / MUT) as of summer semester 2018: see "List of Master's theses in the degree programme MUT_10.2021.pdf".
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Publications
- Schaidhauf, Ralph: "Systemanalyse der energetischen Nutzung von Biomasse"; Fortschritt-Berichte VDI, Reihe 6 / Energietechnik / Nr. 404; 1998 ; ISBN 3-18-340406-0.
- Ratka, A.; Hamann-Wenig, S. and Ehrmaier, B. (eds.): "Renewable energy technology" / Schaidhauf, Ralph: author of chapters 6 and 7; Verlag Eugen Ulmer Stuttgart / UTB vol. no. 4343 ; 2015 ; ISBN 978-3-8252-4343-2
- Böhm, R.; Schaidhauf, R.M.; Spanheimer, R.; Erdmann, D-M. and Franke, J.: "Flexibilization of biogas plants through intelligent automation generates earning opportunities" published by www.scientific.net, on 04.10.2016
- Böhm, R.; Schaidhauf, R.M.; Wytopil, B. and Franke, J.: "Analyse der Marktaussichten von Biogasanlagen" in Zeitschrift für Energiewirtschaft (Springer Verlag) on 15.04.2018
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Research topics
ongoing:
ZIM project Biomeiler (cooperation with ENERPIPE GmbH)
- Development of a semi-automated and miniaturised composting plant for the production of low-temperature heat for the heating of buildings and the production of hot water with simultaneous production of a high-quality compost
- Duration: 10/2019 - 03/2022
- For more details see link: https: //www.biomasseinstitut.de/biomeiler/
completed:
No entries
Born in Munich
University entrance qualification (Gymnasium Oberhaching)
End of basic military service (mountain artillery in Bad Reichenhall)
Graduate engineer TUM (mechanical engineering, process engineering)
Dr.-Ing. TUM (Energy Technology)
ZAE-Bayern Dept. 1 (focus on biomass)
Employee at REHAU AG & Co. (plastics technology)
Developer for car exterior components (Audi, BMW)
Project Manager for Passenger Car Exterior Components (AMG, Daimler, Audi, Porsche)
Part-time lecturers at the HSWT (energy efficiency in industry)
Professorship for Energy Technology at the HSWT (bioenergy, solar thermal energy, thermal energy efficiency, process simulation, materials technology, physics practical course)
Degree programme coordinator of the Master's in Environmental Engineering and member of the examination board of the UT department
Member of the Extended Institute Management at the Biomass Institute Triesdorf-Ansbach for the UT Department
Programme director for the Master's degree programme in Environmental Engineering (MUT) at the UT department