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20/11/2024

Master Solar Design with SketchUp!

GreenTech Academy is offering a SketchUp Software Course. Here's why you should join:

◼ Enhance Design Skills: Learn to create accurate 3D models, integrating solar panels seamlessly into your designs.
◼ Boost Efficiency: Streamline workflows, minimize errors, and save time on every project.
◼ Achieve Precision: Master precise modeling techniques to maximize energy production.
◼ Improve Communication: Present professional, interactive 3D models to clients and stakeholders.
◼ Stay Competitive: Keep up with the latest solar design trends and methodologies.

📅 Starts: 5th December 2024
📍 LIMITED SEATS AVAILABLE

Enroll now: https://bit.ly/GTA-Batch14-

12/05/2024

Calling all solar enthusiasts! Prepare to shine bright with our groundbreaking online course: Solar Design with SketchUp.

Dive into a world of creativity and innovation as we explore Skelion plugin integration, home design essentials, shadow analysis, and more. Don't miss out – enroll now and become a solar design expert!

https://bit.ly/GTA-Batch13

13/01/2024

Unlock the power of solar design with our upcoming Helioscope software course! Reserve your spot now for a hands-on learning experience that will illuminate your skills in solar energy planning.

https://bit.ly/GreenTechAcademy-Batch12

13/08/2023

This INDEPENDENCE DAY GreenTech Academy offers special discount on PVSYST software course.

ONLY 10 SEATS AVAILABLE | LIMITED TIME OFFER

To avail this opportunity get yourself registered here: http://bit.ly/GTA-BATCH10

16/07/2023

GreenTech Academy offering SketchUp software course.

Why should you learn SketchUp software?

1. Enhancing design skills: SketchUp is a powerful tool for creating 3D models and visualizations. A course specifically focused on solar system design will teach you how to effectively integrate solar panels and other components into your designs. This will enable you to create accurate and visually appealing solar projects.

2. Increasing efficiency: By learning how to use SketchUp solar software effectively, you can streamline the design process and minimize errors or inefficiencies. This can save time and resources, allowing you to complete projects more efficiently.

3. Improved accuracy: Solar system design requires precise measurements and calculations to ensure optimal performance. A SketchUp solar software course will teach you how to accurately model and simulate solar projects, taking into account factors such as sun angle, shading, and panel orientation. This will help you create designs that maximize energy production.

4. Visual communication: SketchUp enables you to create interactive 3D models that can be easily shared with clients, architects, and other stakeholders. By completing a solar software course, you will learn how to present your solar designs in a visually compelling and easy-to-understand manner. This can enhance client communication and aid in obtaining project approvals.

5. Staying up-to-date with industry trends: The solar industry is constantly evolving, with new technologies and design methodologies emerging regularly. By taking a SketchUp solar software course, you can stay updated with the latest trends and best practices in solar system design. This knowledge can help you stay competitive in the industry and deliver cutting-edge solutions to your clients.

In conclusion, taking a SketchUp solar software course is important for enhancing your design skills, improving efficiency and accuracy, enhancing visual communication, and staying up-to-date with industry trends. It can significantly enhance your ability to create effective and visually appealing solar system designs.

Enroll now and let's blast off into the realm of solar system designing together!

bit.ly/GTA-BATCH10

Limited seats available.
Starting from 18th July 2023


#2023

25/03/2023

Calculations of PV module’s Open-Circuit Voltage(Voc) at a specific temperature:

Factors to Considered:
a. Open-Circuit Voltage @ STC
B. Temperature Coefficient of Voc
c. Average Winter Temperature (ASHRAE Lower Temp) (x℃)
d. Module's Standard Testing Temperature (25℃)

To calculate your module’s Voc at a specific temperature (x℃),The formula you’ll need to use is:
Voc × (1 – |25℃ – x℃| × temperature coefficient of Voc)

Let’s work through this with some realistic figures.
For example,
let’s assume your module’s Voc is 54.80V (under standard testing conditions), the temperature coefficient of Voc is -0.25%/℃, and your average winter temperature is -20℃. The formula to calculate your module’s Voc at this temperature would be:
54.80 V × [1 – |25 – (-20)| × (-0.25%)] = 60.97 V
where 60.97 V is the actual Voc of your module.

In this case, if your microinverter’s maximum input voltage is less than 60V, then it could be damaged.

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