Design of 1MW of Ground Mounted Solar Power Plant Part 1 from Udemy

In this course Participants will able to learn the following Points:

1. Site Analysis and Site Survey of Solar Power Plant

Basic Information about Site
Geographical Location of Site
Importing GHI Data from PVGIS Software - Part 1
Importing GHI Data from PVGIS Software - Part 2
GHI and Temperature Data
Assessment of land area in Google earth software
Manual Assessment of Land
Generation of Online Sun Path Diagram
Substation Details

2. Design and Sizing of Electrical Component in 1MW Solar Project

Solar Panel Data Sheets
Reading of Solar Panel Datasheet
Reading of Solar Inverter Datasheet
Solar Panel and Solar Inverter Consideration
Calculation of Maximum Solar Panel per String
Calculation of Minimum Solar Panel per Strings
Voltage and Current of Each String
Calculation of Optimum Number of Solar Panel per String
Calculation of Number of Solar Panels for DC Input Connection to Inverter
Voltage and Current of Each Combiner Box and DC Inputs
Connections of Solar Strings
String Combiner/Monitoring Box
Specifications of String Monitoring Box
Connection of Solar Combiner to Inverter
DC Cable Sizing in One String
DC Cable Sizing (SMB to Inverter)
DC Side Protection Breakers
AC Cable Sizing Up to Transformer
Selection of Transformer
AC Cable Sizing from Transformer to CRP Panel
Control and Relay Panel (CRP Panel)
Multifunctional Meter with Current Transformer and Potential Transformer
Isolator Switch
Vacuum Circuit Breaker
Auxiliary Transformer
Cable Sizing for Auxiliary Load
Lightening Arrester
Main Export Meter with CT and PT

3. Design of Site Plan and Solar Array Placement in AutoCAD Software

How to Download AutoCAD
Set limits and Units in AutoCAD
Introduction to Basic Commands
Drawing initial Site Plan
Construction of Solar Panel and Solar String
Construction of One Solar Array
Construction and Placement of Solar Array
Construction of Control Rooms
Construction of String Monitoring Box
Construction of Cable Routing
Construction of Switch yard
Showing Dimensions on Plan View
Making the Sheet in Rectangular Format
Insertion of Table in Sheet
Addition of Specification Table
Plotting the Sheet in Pdf Format

What's inside

Learning objectives

Site analysis and site survey of solar power plant
Basic information about site
Geographical location of site
Importing ghi data from pvgis software
Ghi and temperature data
Assessment of land area in google earth software
Manual assessment of land
Generation of online sun path diagram
Substation details
Design and sizing of electrical component in 1mw solar project
Solar panel data sheets
Reading of solar panel datasheet
Reading of solar inverter datasheet
Solar panel and solar inverter consideration
Calculation of maximum solar panel per string
Calculation of minimum solar panel per strings
Voltage and current of each string
Calculation of optimum number of solar panel per string
Calculation of number of solar panels for dc input connection to inverter
Voltage and current of each combiner box and dc inputs
Connections of solar strings
String combiner/monitoring box
Specifications of string monitoring box
Connection of solar combiner to inverter
Dc cable sizing in one string
Dc cable sizing (smb to inverter)
Dc side protection breakers
Ac cable sizing up to transformer
Selection of transformer

Ac cable sizing from transformer to crp panel
Control and relay panel (crp panel)
Multifunctional meter with current transformer and potential transformer
Isolator switch
Vacuum circuit breaker
Auxiliary transformer
Cable sizing for auxiliary load
Lightening arrester
Main export meter with ct and pt
Design of site plan and solar array placement in autocad software
How to download autocad
Set limits and units in autocad
Introduction to basic commands
Drawing initial site plan
Construction of solar panel and solar string
Construction of one solar array
Construction and placement of solar array
Construction of control rooms
Construction of string monitoring box
Construction of cable routing
Construction of switch yard
Showing dimensions on plan view
Making the sheet in rectangular format
Insertion of table in sheet
Addition of specification table
Plotting the sheet in pdf format
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Site analysis and site survey of solar power plant
Basic information about site
Geographical location of site
Importing ghi data from pvgis software
Ghi and temperature data
Assessment of land area in google earth software
Manual assessment of land
Generation of online sun path diagram
Substation details
Design and sizing of electrical component in 1mw solar project
Solar panel data sheets
Reading of solar panel datasheet
Reading of solar inverter datasheet
Solar panel and solar inverter consideration
Calculation of maximum solar panel per string
Calculation of minimum solar panel per strings
Voltage and current of each string
Calculation of optimum number of solar panel per string
Calculation of number of solar panels for dc input connection to inverter
Voltage and current of each combiner box and dc inputs
Connections of solar strings
String combiner/monitoring box
Specifications of string monitoring box
Connection of solar combiner to inverter
Dc cable sizing in one string
Dc cable sizing (smb to inverter)
Dc side protection breakers
Ac cable sizing up to transformer
Selection of transformer
Ac cable sizing from transformer to crp panel
Control and relay panel (crp panel)
Multifunctional meter with current transformer and potential transformer
Isolator switch
Vacuum circuit breaker
Auxiliary transformer
Cable sizing for auxiliary load
Lightening arrester
Main export meter with ct and pt
Design of site plan and solar array placement in autocad software
How to download autocad
Set limits and units in autocad
Introduction to basic commands
Drawing initial site plan
Construction of solar panel and solar string
Construction of one solar array
Construction and placement of solar array
Construction of control rooms
Construction of string monitoring box
Construction of cable routing
Construction of switch yard
Showing dimensions on plan view
Making the sheet in rectangular format
Insertion of table in sheet
Addition of specification table
Plotting the sheet in pdf format
Show more
Show less

Syllabus

Site Analysis and Site Survey of Solar Power Plant

Basic Information about Site

Geographical Location of Site

Importing GHI Data from PVGIS Software - Part 1

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what should give you pause

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Covers the electrical component design aspects of a 1MW solar project, including solar panel and inverter considerations, cable sizing, and protection breakers, which are essential for electrical engineers

Details the process of site analysis and survey, including geographical location assessment using Google Earth and PVGIS software, which is crucial for solar power plant designers

Explores the design of site plans and solar array placement using AutoCAD, including setting limits and units, basic commands, and plotting sheets in PDF format, which is useful for CAD users

Discusses the specifications of string monitoring boxes and the connections of solar strings, which is directly applicable to the work of solar power technicians

Requires familiarity with AutoCAD software, which may necessitate additional training for those without prior experience in drafting and design software

Focuses on a 1MW ground-mounted solar power plant, which may not be directly applicable to other types of solar installations, such as rooftop or floating solar farms

Reviews summary

Design and sizing for 1mw solar

According to learners, this course offers a strong foundation covering essential aspects of 1MW ground-mounted solar power plant design. Students particularly highlight the practical application of concepts, including site analysis, electrical component sizing, and design using software like AutoCAD. While some find the pace and detail sufficient for beginners, a few note that it could benefit from deeper dives into specific advanced topics. The course is generally considered very informative and helpful for those looking to enter or advance in the solar design field.

Suitable for beginners in the field.

"Great course if you are starting your solar career."

"It's a solid introduction to the design process for those new to 1MW systems."

"This course provided a good overview for someone new to the field."

"I found it easy to follow as a beginner in solar design."

Incorporates relevant industry software.

"The section on using PVGIS and AutoCAD was very practical."

"Learning how to use Google Earth and AutoCAD for site layout was a great addition."

"It covers the basics of using essential tools like AutoCAD for the design part."

"The course integrated the use of specific design software which was beneficial."

Detailed guidance on component sizing.

"The detailed calculations for electrical component sizing were very helpful."

"This is a good course. I have a better understanding on solar component calculation."

"Excellent course on calculation and sizing of electrical components."

"It was a comprehensive course on the sizing of electrical components for solar power plants..."

Covers practical steps for plant design.

"This course gives a complete design of a 1mw solar plant. Site analysis, survey, drawing in autocad..."

"This is one of the best courses for Solar Power Plant Design practically."

"I learned so much about the practical aspects of solar power plant design."

"The course helped me gain insights into the practical design approach..."

Some topics could use advanced detail.

"Could be useful to get more detail in certain sections for intermediate learners."

"While good for basics, it could go deeper into advanced optimization techniques."

"Some parts felt a bit rushed; more in-depth explanations would be welcome."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Design of 1MW of Ground Mounted Solar Power Plant Part 1 with these activities:

Review Electrical Engineering Fundamentals

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Reinforce foundational electrical engineering concepts to better understand the design and sizing of electrical components in a solar power plant.

Browse courses on Circuit Analysis

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Review basic circuit laws (Ohm's Law, Kirchhoff's Laws).
Practice calculating voltage, current, and power in simple circuits.
Familiarize yourself with AC and DC power concepts.

Review 'Photovoltaic Systems Engineering'

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Gain a deeper understanding of photovoltaic systems engineering principles and best practices.

View Photovoltaic Systems Engineering, Third Edition on Amazon

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Read the chapters related to system design and component selection.
Study the examples and case studies provided in the book.
Take notes on key concepts and formulas.

Practice AutoCAD Commands

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Improve proficiency in AutoCAD to efficiently design site plans and solar array placements.

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Complete online tutorials on basic AutoCAD commands.
Practice drawing simple shapes and objects.
Replicate existing solar site plans in AutoCAD.

Four other activities

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Review 'Electrical Codes and Standards'

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Ensure compliance with electrical codes and standards in the design of the solar power plant.

View NFPA 70, National Electrical Code Handbook on Amazon

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Identify the relevant sections of the electrical code for solar power plants.
Review the requirements for wiring, grounding, and overcurrent protection.
Understand the inspection and permitting process.

Create a Preliminary Site Layout

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Apply the knowledge gained in the course to design a preliminary site layout for a 1MW solar power plant.

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Select a hypothetical site location using Google Earth.
Determine the available land area and any site constraints.
Design a preliminary layout of the solar arrays, inverters, and other equipment using AutoCAD.
Document your design assumptions and calculations.

Follow Advanced AutoCAD Tutorials

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Refine AutoCAD skills to create detailed and accurate site plans for solar power plants.

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Find tutorials on advanced AutoCAD features like layers and blocks.
Practice creating detailed drawings of solar panels and arrays.
Learn how to add annotations and dimensions to your drawings.

Research Substation Requirements

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Deepen understanding of substation design and integration with the solar power plant.

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Investigate the requirements for connecting the solar power plant to the grid.
Research different types of substations and their components.
Determine the necessary protection and control equipment for the substation.

Career center

Learners who complete Design of 1MW of Ground Mounted Solar Power Plant Part 1 will develop knowledge and skills that may be useful to these careers:

Solar Design Engineer

Solar design engineers are responsible for the technical design and engineering of solar energy systems. This course directly addresses the core skills needed for this role, including calculating the optimal number of solar panels per string, DC and AC cable sizing, and using AutoCAD to design site plans and array placements. A solar design engineer will greatly benefit from the course's comprehensive coverage of electrical components and system design considerations.

See salaries and explore the career path for Solar Design Engineer

Solar Project Developer

A solar project developer oversees the entire process of creating a solar energy project, from initial site assessment to securing financing and managing construction. This course equips you with essential skills for site analysis, including geographical location assessment using tools like PVGIS software, land area evaluation via Google Earth, and understanding sun path diagrams. You'll also gain knowledge in electrical component design, solar panel and inverter considerations, and AutoCAD for site planning, all pivotal for a solar project developer.

See salaries and explore the career path for Solar Project Developer

CAD Technician

CAD technicians use computer aided design software to create blueprints and technical drawings. This course offers direct training in using AutoCAD for designing solar power plant layouts, including solar panel and array placements, control rooms, and cable routing. A CAD technician can use this newly acquired knowledge to assist solar design engineers in creating accurate and detailed plans for solar energy projects. This course will provide practical skills for a CAD technician.

See salaries and explore the career path for CAD Technician

Renewable Energy Consultant

Renewable energy consultants advise clients on the feasibility, design, and implementation of renewable energy systems. This course provides a strong foundation in solar power plant design, covering areas such as site analysis, electrical component sizing, and array placement. Understanding how to import GHI data from PVGIS, assess land area, and design electrical components is crucial for a renewable energy consultant when evaluating a solar project's viability and offering informed recommendations.

See salaries and explore the career path for Renewable Energy Consultant

Electrical Engineer

Electrical engineers design, develop, and test electrical equipment and systems. This course offers specialized knowledge in the context of solar power plants, focusing on the design and sizing of electrical components such as solar panels, inverters, transformers, and circuit breakers. The course's detailed instruction on AC and DC cable sizing, protection breakers, and control panel design makes it relevant for electrical engineers working in the renewable energy sector. An electrical engineer will benefit from the practical applications in this course.

See salaries and explore the career path for Electrical Engineer

Energy Analyst

Energy analysts evaluate energy projects and markets, providing insights into efficiency, cost-effectiveness, and environmental impact. This course provides essential knowledge for assessing the technical and practical aspects of solar power plant design. The course's emphasis on site analysis using PVGIS software, land assessment with Google Earth, and electrical component sizing is crucial for an energy analyst in evaluating the feasibility and performance of solar energy projects.

See salaries and explore the career path for Energy Analyst

Project Manager

Project managers oversee the planning, execution, and completion of specific projects, ensuring they are on time, within budget, and meet the defined objectives. This course equips a with the technical knowledge to effectively manage solar power plant projects. You'll gain an understanding of site analysis, electrical component sizing, and layout design. A project manager will benefit from the course's insights into the various stages of solar power plant development and the considerations involved in each phase.

See salaries and explore the career path for Project Manager

Solar Installer

Solar installers are responsible for the physical installation of solar panels and related equipment. While this role is more hands-on, this course provides valuable knowledge of system design, electrical component connections, and site planning. Understanding the principles behind solar array placement, string configurations, and cable sizing allows a solar installer to perform their job more effectively and troubleshoot issues on site. A solar installer will find the AutoCAD section on site and array design to be particularly useful.

See salaries and explore the career path for Solar Installer

Renewable Energy Sales

Renewable energy sales professionals market and sell renewable energy systems and solutions to clients. This course provides valuable technical knowledge about solar power plant design and components. Understanding the intricacies of site analysis, electrical component sizing, and system layout allows a renewable sales professional to communicate the benefits of solar energy more effectively and address client concerns with confidence. This course will allow a renewable energy sales professional to have the insights into the technical aspects of solar energy.

See salaries and explore the career path for Renewable Energy Sales

Solar Energy System Inspector

Solar energy system inspectors ensure that solar installations meet safety and performance standards. This course provides a strong understanding of solar power plant design, electrical components, and site layouts. Grasping the principles behind solar panel configurations, cable sizing, and protection systems allows a solar energy system inspector to accurately assess the quality and safety of installations and identify potential issues. This may be useful.

See salaries and explore the career path for Solar Energy System Inspector

Sustainability Manager

Sustainability managers develop and implement strategies to reduce the environmental impact of an organization. The course provides valuable knowledge of solar power plant design and implementation. Understanding the technical aspects of renewable energy projects allows a sustainability manager to make informed decisions when incorporating solar energy into an organization's sustainability initiatives. The course's focus on site analysis and component selection makes it relevant for a sustainability manager assessing the feasibility of solar energy projects.

See salaries and explore the career path for Sustainability Manager

Power Systems Engineer

Power systems engineers design, develop, and maintain the electrical power grid infrastructure. This course provides specialized knowledge in the design and operation of solar power plants, focusing on electrical component sizing, protection systems, and grid integration. A power systems engineer can use this expertise to better understand how solar energy contributes to the overall power grid and ensure its reliable operation. This may be useful.

See salaries and explore the career path for Power Systems Engineer

Environmental Engineer

Environmental engineers develop solutions to environmental problems, including air and water pollution, waste management, and renewable energy. This course provides insight into the design and implementation of solar power plants, a clean energy solution. An environmental engineer can use this knowledge to promote and implement solar energy projects as part of a broader sustainability strategy and advocate for environmentally responsible energy solutions. A background in engineering is typically needed.

See salaries and explore the career path for Environmental Engineer

Energy Efficiency Specialist

Energy efficiency specialists work to reduce energy consumption in buildings and industrial processes. While this course focuses on solar power generation rather than energy consumption, it provides valuable context for understanding the role of renewable energy in a comprehensive energy efficiency strategy. An energy efficiency specialist can use this knowledge to inform clients about the benefits of solar energy and integrate it into broader energy efficiency initiatives. This course may be useful.

See salaries and explore the career path for Energy Efficiency Specialist

Sustainability Consultant

Sustainability consultants advise organizations on how to improve their environmental and social performance. The course provides a foundational knowledge of solar energy systems and their implementation. You can leverage the knowledge gained to advise clients on incorporating solar power into their sustainability strategies, assess the feasibility of solar projects, and promote the adoption of renewable energy solutions. This may be useful.

See salaries and explore the career path for Sustainability Consultant

Design of 1MW of Ground Mounted Solar Power Plant Part 1

What's inside

Learning objectives

Syllabus

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Reviews summary

Design and sizing for 1mw solar

Activities

Career center

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