Solar Energy Devices

Overview

Compentency: Reviewing different technologies of solar energy competency

Module type: elective module

Semester: winter

Site: Cairo

Language: English

Workload: 90 hours course attendance; 60 hours self-study

Credits points: 6

Recommended qualifications: none

After the successful participation in the course Solar Thermal Heating the students are able to:

distinguish solar thermal devices for domestic hot water with respect to radiation circumstances and geographical position
assess design and dimensioning of different solar thermal energy devices for domestic hot water, space and swimming pool heating and air conditioning

Basics of heat transfer and thermodynamics
Basics of solar radiation including:
- calculation of radiation on the inclined / adjusted area
- solar radiation distribution
- spatial and temporal solar radiation variations
Components:
- collector (types, material, collector loop, energy balance, efficiency)
- heat carrier (thermophysical properties, pressure drop, heat transfer, chemical stability, solubility of gases)
- heat storage (different types and tasks, thermo-physical properties)
Dimensioning of solar thermal plants according to its uses:
- domestic hot water plants, swimming pools, air conditioning
- district heating
- industrial use
Planning the connection of the systems with one another and with the building
Using planning tools and simulation programs (Meteonormm TSOL, POLYSUN, ect.)
Monitoring and optimization:
- system failures
- methods for long term monitoring / system optimization

After the successful participation in the course Concentrated Solar Thermal Devices the students are able to:

recognize operating limits of non-focusing collectors and the need for focusing collectors, the different types of solar concentrators and their relative merits
assign output power, delivery temperatures and performance indices for different kinds of solar concentrator technologies

Driving factors for solar concentration techniques
Mechanism of solar concentration
Components of a concentrating collector
Concentration ratio (theoretical vs. actual)
Types and thermal performance of concentrating collectors
Tracking
Choice of collector mount
Calculations to yield:
- output power
- delivery temperature (for specific types)
- the performance indices

After the successful participation in the course Photovoltaic Devices the students are able to:

distinguish the solar radiation on oriented surfaces
perceive the physics of photovoltaic cell materials, production, modules structure and basic electrical characteristics of the solar module

Basics of:
- electrical engineering
- characteristics of solar radiation (diffuse, direct, and albedo)
PV design:
- solar cells physics (photovoltaic effect) and materials (mono-crystalline, multicrystalline, thin-film technology)
- estimating the radiation on PV modules
- semiconductor material and their application in PV
Basic components of grid connected PV-Systems:
- sizing of PV-generator
- cabling, protection
- inverter-concepts (with and without transformer)
Estimating performance criteria:
- evaluation criteria (energy yield, performance ratio, maximum power point (MPP), aim and techniques of MPP-tracking
- simulation tools (e.g. PV*SOL or INSEL) for the design and forecast of PV system performance, project work
Local requirements and legislation for integration of PV systems to the utility grid