Categories

Advanced Course in Concentrated Solar Power (CSP) Design


Summary

Concentrated Solar Power (CSP) design stands at the intersection of innovation and sustainability, harnessing the sun's energy to generate electricity in a unique way. Unlike traditional photovoltaic systems that convert sunlight directly into electricity, CSP employs mirrors or lenses to focus sunlight onto a small area, generating heat that drives a turbine. This approach not only enhances energy efficiency but also offers the potential for large-scale energy production. As the world seeks cleaner energy solutions, understanding the intricacies of CSP design becomes crucial for advancing renewable technologies.

The British Academy for Training and Development provides this course in Concentrated Solar Power (CSP) Design to delve into the principles, components, and future prospects of CSP, highlighting its role in the global shift towards sustainable energy systems.

Objectives and target group

Who Should Attend?

  • Engineers and technicians in renewable energy sectors.
  • Environmental science students and professionals.
  • Policy makers and energy analysts.
  • Individuals interested in sustainable energy solutions.

 

Knowledge and Benefits:

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

  • Understand the principles and technologies behind CSP systems.
  • Analyze the design considerations for various CSP technologies.
  • Evaluate site selection criteria and perform feasibility studies.
  • Develop skills in designing a CSP system from concept to implementation.
  • Gain insight into project management and economic considerations in CSP deployment.

Course Content

  • Introduction to Solar Energy and CSP
    • Importance of solar energy in the global energy landscape
    • Overview of CSP as a renewable technology
    • Comparison of CSP and photovoltaic systems
  • Basic Principles of CSP
    • Fundamentals of solar radiation and its measurement
    • Key concepts in thermal energy conversion
    • Overview of the thermodynamic cycles used in CSP
  • CSP System Components
    • Overview of key components: mirrors, receivers, and turbines
    • Role of balance-of-plant systems in CSP
    • Introduction to control systems in CSP operations
  • Parabolic Trough Systems
    • Design features and operational principles
    • Performance metrics and efficiency considerations
    • Common applications of parabolic trough systems
  • Power Tower Systems
    • Structure and function of central receiver technology
    • Advantages and disadvantages of power tower systems
    • Recent advancements in power tower technology
  • Fresnel Reflectors and Dish Stirling Systems
    • Design and operation of Fresnel reflector systems
    • Overview of Dish Stirling technology and its mechanisms
    • Comparative analysis of system efficiencies
  • Criteria for Site Selection
    • Key factors influencing site suitability for CSP
    • Geographic and climatic considerations for optimal performance
    • Importance of accessibility and infrastructure
  • Solar Resource Assessment
    • Techniques for measuring solar resources at potential sites
    • Tools for analyzing and interpreting solar data
    • Impact of resource assessment on project feasibility
  • Environmental Impact Considerations
    • Key environmental factors to evaluate for CSP projects
    • Methods for assessing ecological impacts
    • Regulatory requirements for environmental assessments
  • Designing CSP Systems
    • Overview of system design process and considerations
    • Core components and their interconnections
    • Principles of layout design for maximum efficiency
  • Thermal Storage Options
    • Importance of thermal storage in CSP systems
    • Types of thermal storage technologies and their benefits
    • Design considerations for integrating storage solutions
  • Heat Transfer Fluids
    • Selection criteria for heat transfer fluids in CSP systems
    • Types of fluids and their properties
    • Impact of fluid selection on overall system efficiency
  • Cost Structure of CSP Projects
    • Breakdown of capital and operational costs
    • Analysis of lifecycle costs for CSP systems
    • Factors affecting cost efficiency in CSP projects
  • Financial Modeling Techniques
    • Overview of financial modeling for project evaluation
    • Key metrics for assessing economic viability
    • Sensitivity analysis for risk management
  • Funding and Incentives
    • Overview of potential funding sources for CSP projects
    • Government incentives and subsidies available for renewable energy
    • Strategies for securing financial support
  • Principles of Project Management
    • Key methodologies in project management for renewable energy
    • Overview of project phases: initiation, planning, execution, and closure
    • Importance of stakeholder management and communication
  • Risk Management Strategies
    • Identifying and analyzing risks in CSP projects
    • Mitigation strategies for potential project risks
    • Tools for effective risk management
  • Monitoring and Evaluation
    • Techniques for monitoring project progress
    • Key performance indicators (KPIs) for CSP projects
    • Importance of post-project evaluation for future improvements
  • Emerging Technologies in CSP
    • Innovations in materials and design for CSP systems
    • Developments in hybrid systems integrating CSP with other renewables
    • Advances in thermal energy storage technologies
  • Market Trends and Growth Opportunities
    • Overview of the current CSP market landscape
    • Analysis of regional and global growth trends
    • Potential challenges and opportunities in the CSP sector
  • Policy and Regulatory Frameworks
    • Overview of policies influencing CSP deployment
    • International agreements and national regulations
    • Future outlook for CSP in renewable energy policy

Course Date

2024-11-25

2025-02-24

2025-05-26

2025-08-25

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

Related Course

Featured

Renewable Energy According to European Standards

2025-01-06

2025-04-07

2025-07-07

2025-10-06

£4500 £4500

$data['course']