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Advanced Course in Solar Rooftop Systems Design


Summary

The transition to renewable energy is one of the most significant challenges and opportunities of our time. Solar energy, in particular, has gained momentum as a sustainable and efficient source of power. Solar rooftop systems have emerged as an effective way to harness solar energy, providing clean electricity for residential, commercial, and industrial applications.

This course in Solar Rooftop Systems Design provided by the British Academy for Training and Development is designed to equip participants with a comprehensive understanding of solar rooftop systems, including their design, components, and implementation strategies.

Objectives and target group

Who Should Attend?

  • Engineers and Architects involved in designing and constructing buildings who want to integrate solar technology into their projects.
  • Energy Consultants that advise clients on energy efficiency and renewable energy solutions.
  • Policy makers and environmental advocates interested in promoting sustainable practices and renewable energy adoption at various levels.

 

Knowledge and Benefits:

After completing the program, participants will be able to master the following:

  • Grasp the principles of solar energy generation and the workings of photovoltaic technology.
  • The skills necessary to design effective solar rooftop systems tailored to specific needs and locations.
  • Familiarize participants with local regulations, incentives, and best practices for solar energy implementation.

Course Content

  • History and Evolution
    • Development of solar technology from inception to present day.
    • Key milestones in the growth of solar energy.
    • The impact of solar energy on global energy markets.
  • Types of Solar Energy Systems
    • Differences between photovoltaic (PV) and solar thermal systems.
    • Typical applications of each system in residential and commercial settings.
    • Benefits and limitations associated with each technology.
  • Global Trends in Solar Adoption
    • Current statistics on solar energy usage worldwide.
    • Major contributors to the solar market.
    • Future projections for solar energy growth.
  • PV Cell Composition
    • Materials involved in solar cell production.
    • Comparison of monocrystalline, polycrystalline, and thin-film technologies.
    • Environmental impacts of various materials.
  • Energy Conversion Process
    • Detailed explanation of how the photovoltaic effect works.
    • Stages of converting sunlight to electricity.
    • Factors influencing energy conversion efficiency.
  • System Components
    • Overview of critical components: panels, inverters, batteries.
    • Types of mounting systems and their importance.
    • Role of balance of system (BOS) components.
  • Site Evaluation Techniques
    • Methods for assessing roof suitability: shading analysis, orientation, and tilt.
    • Tools for site evaluation, such as solar pathfinders.
    • Local climate considerations for optimal performance.
  • Energy Consumption Analysis
    • Techniques for calculating a building’s energy needs.
    • Analyzing utility bills to determine consumption patterns.
    • Sizing the solar system based on energy requirements.
  • Financial Feasibility
    • Key financial metrics: payback period, ROI, and net present value (NPV).
    • Cost estimation techniques for solar projects.
    • Overview of financial incentives and funding options available.
  • Sizing the System
    • Factors influencing the system size: energy needs and available roof space.
    • Calculation methods for determining appropriate system capacity.
    • Planning for future energy demands and potential scalability.
  • Component Selection
    • Criteria for selecting solar panels, inverters, and batteries.
    • Importance of performance ratings and warranties.
    • Understanding manufacturer specifications and industry standards.
  • Design Software Utilization
    • Introduction to design software tools for solar systems.
    • Using simulation software for layout and performance predictions.
    • Benefits of digital modeling in solar system design.
  • Local and National Policies
    • Overview of regulations governing solar installations.
    • Key permits and building codes to consider.
    • Understanding zoning laws related to solar energy projects.
  • Incentives and Rebates
    • Identifying available federal, state, and local incentives.
    • Mechanisms of tax credits, rebates, and grants.
    • Role of renewable energy certificates (RECs) in financing solar projects.
  • Grid Connection Requirements
    • Overview of interconnection standards and procedures.
    • Understanding net metering and feed-in tariff policies.
    • Importance of coordination with utility companies for installations.
  • Installation Best Practices
    • Key steps for successful solar panel installation.
    • Safety protocols to follow during installation.
    • Quality assurance measures to implement during the process.
  • Maintenance and Monitoring
    • Developing a routine maintenance plan for solar systems.
    • Importance of monitoring technologies for performance assessment.
    • Common issues that may arise and troubleshooting strategies.
  • Energy Storage Solutions
    • Overview of different types of energy storage systems (e.g., batteries, pumped hydro).
    • Role of energy storage in enhancing solar system performance.
    • Factors to consider when integrating storage with solar systems.
  • Smart Home Integration
    • How solar systems can be integrated into smart home technology.
    • Benefits of home automation for energy management.
    • Using smart meters and energy management systems.
  • Hybrid Energy Systems
    • Understanding hybrid systems that combine solar with other energy sources (e.g., wind, diesel).
    • Benefits of using hybrid systems for energy resilience.
    • Key considerations for designing hybrid energy solutions.
  • Future Trends in Solar Technology
    • Innovations in solar technology, including storage solutions and smart systems.
    • The integration of solar energy with smart grid technologies.
    • Market dynamics and emerging challenges for solar energy adoption.

Course Date

2025-01-27

2025-04-28

2025-07-28

2025-10-27

Course Cost

Note / Price varies according to the selected city

Members NO. : 1
£4500 / Member

Members NO. : 2 - 3
£3600 / Member

Members NO. : + 3
£2790 / Member

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