SUBSIDIZED course "ENERGY REHABILITATION OF BUILDINGS"

Guild of Installers of Tarragona.

C/ Estany no. 10, building 19 of the Industrial Park Riu Clar (Tarragona)

Module 1 . Solar resources and photovoltaic technologies, 60 hours

• Characterization of the Sun:

General data

Solar radiation: electromagnetic wave

Solar energy. uses

Interaction of solar radiation with the atmosphere

Components of solar radiation

Sun-Earth motion and apparent motion

Fundamental parameters (solar time, solar declination, solar altitude, azimuth)

Solar motion calculation programs: PV Education, PV Lighthouse, PVsyst

• Definition of the size of solar radiation:

Equipment for measuring solar radiation

• Classification of solar radiation databases:

Solar radiation databases (national, European, global)

Weather station databases (METEOCAT, AEMET. , AERONET, NSRDB)

Solar radiation data for simulations. standardization Typical weather year

Prediction of solar radiation

• Formulation of the calculation of solar radiation on inclined surfaces:

Solar radiation calculation method on inclined surfaces

Calculation of hourly and monthly solar radiation on an inclined surface

Determination of the optimal angle of inclination

Solar radiation calculation programs: PVGIS, PV Lighthouse

Prediction of solar radiation

Solar cartography

• Shading study specifications:

Shadow diagrams

Shadow calculation

• Application of the solar resource:

Simulation on characterization of the solar resource

• Description of the photovoltaic cell semiconductors:

Materials

Generation and recombination

Transport of loads

Union PN

• Analysis of the operation of the photovoltaic cell:

Main characteristics (structure, quantum efficiency, photovoltaic effect, etc.)

Electrical parameters. Equivalent electric circuit

Effects that affect the behavior of the solar cell (resistive effects, temperature effect, irradiance effect) Modeling and simulation of photovoltaic cells with SPICE

• Classification of photovoltaic technologies:

Crystalline silicon photovoltaic cells

Cells in thin sheet

Multijunctional cells

Excitonic cells

• Application of photovoltaic devices:

Simulation on experimental characterization of photovoltaic devices

Module 2. Connection of photovoltaic systems, 60 hours

• Classification of photovoltaic installations:

Residential facilities

Commercial facilities

Supply facilities

Facilities connected and not connected to the network

Facilities with and without storage

• Description of elements of residential installations (<100 kW):

Service life of the components

Arrays and strings

Types and characteristics of inverters (up to 100 kW)

Fixed mounting systems

Connected and protection elements

Measuring devices

• Specifications for the operation of residential facilities:

Current regulation

Power management

Synchronization with the network and isolation

Network support

Data logging

• Knowledge of the regulations and electrical safety of residential installations:

legal framework

Transformers, insulation and grounding

leakage currents

disconnection

• Optimization of energy flow and minimization of losses in residential installations:

Electrical description and simulation

shaded

Orientation and temperature

Working range of voltage, current and power

Potential-induced degradation

Loss minimization

• Operation analysis and failure detection:

Performance indicators

Monitoring and diagnosis

• Description of the elements in commercial installations (100-500 kW):

Service life of the components

Arrays and strings

Types and characteristics of inverters (up to 500 kW)

• Specifications of the operation of the commercial facilities:

Synchronization with the network and isolation

Network support

• Knowledge of the regulations and electrical safety of commercial facilities:

legal framework

Transformers, insulation and grounding

leakage currents

disconnection

• Optimization of energy flow and minimization of losses in commercial facilities:

Electrical description and simulation

Loss minimization

Redundancy

• Operation analysis and failure detection:

Performance indicators

Monitoring and diagnosis

Corrective actions

• Description of the elements of the supply facilities (>10 MW):

Matrices and chains of high tension

Types and characteristics of inverters (from 500 kW)

Fixed mounting systems and follow-up alternatives

• Specifications of the operation of the supply facilities:

Regulation of supply plants

• Knowledge of the regulations and electrical safety of the supply facilities:

legal framework

Insulation and grounding transformers

leakage currents

disconnection

• Optimization of the energy flow and minimization of losses in the facilities. of supply:

Electrical description and simulation

Loss minimization

Redundancy

• Analysis of the operation and failure detection of the supply facilities:

Performance indicators

Monitoring and diagnosis

Corrective actions

• Identification of energy storage technologies in photovoltaic systems:

Type of energy storage Batteries

• Delimitation of the energy storage operation in photovoltaic systems:

Wholesale storage

Peak reduction

Power quality

• Characterization of self-consumption of energy in photovoltaic systems:

Design of a self-consumption system

• Design of a supply system:

Simulation of supply systems with appropriate software

Module 3. Design and dimensioning of photovoltaic systems, 60 hours

• Description of the system block diagram:

Elements of the photovoltaic system

Main parameters and characteristics

Systems with tracking

Commercial examples

• Dimensioning of autonomous photovoltaic systems:

Solar peak hour concept

Energy balance method

System cost analysis

Wiring and protections

• Dimensioning of photovoltaic systems connected to the grid:

System cost analysis

Wiring and protections

• Application demonstration of a photovoltaic system:

autonomous photovoltaic system

Photovoltaic system connected to the network for domestic self-consumption

• Sizing application:

simulation of a photovoltaic system case:

Sensors and elements of the monitoring system

• Description of system performance parameters:

Setting performance parameters

• Analysis of the photovoltaic sector and market:

Background and current situation

Evolution of R+D+I

• Supervision of photovoltaic installations:

Error detection

Control algorithms and automatic system supervision

• Characterization of sizing and simulation tools for photovoltaic systems:

IT tools

• Use of simulation software for system monitoring:

Autonomous systems

Systems connected to the network

User level knowledge of data spreadsheets and AutoCAD required

Cancellation of registrations:

Depending on the registrations that are made, the training action will be viable or not, for this reason it is important that you notify cancellations.

The cancellation must be communicated 48 hours before the start of the training through the email formacio@cetit.org, otherwise 100% of the amount of the training action will be invoiced.

Images and recording of the course: we inform you that, in compliance with the RGPD, the current legal regulations on data protection and Law 1/1982 on civil protection, right to honor, personal and family privacy and the image itself, photographs will be taken during the course and in certain cases they will be recorded and/or broadcast live. Under no circumstances will the name of the interested party be published. The image is used legitimately for the College's legitimate interest in promoting these courses and their possible subsequent viewing by attendees.

By attending, these images will be kept as long as the course is uploaded to the platform. Once the period for viewing it later has passed, it will no longer be uploaded to the platform and the images will be deleted with appropriate security measures.

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