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- PV SOLAR SKETCHUP LAYOUT TEMPLATE DOWNLOAD MOVIE
- PV SOLAR SKETCHUP LAYOUT TEMPLATE DOWNLOAD SOFTWARE
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- PV SOLAR SKETCHUP LAYOUT TEMPLATE DOWNLOAD DOWNLOAD
dyeSpot : represents the lighting dye spots inside the dye.dye : represents the upper half of the inner cell.current : represents the arrow that rotates to animate the current flow through the load in the first slide.
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![pv solar sketchup layout template download pv solar sketchup layout template download](https://cdn.educba.com/academy/wp-content/uploads/2018/12/AutoCAD-vs-SketchUp.jpg)
arrow : represents the arrow that rotates to animate the current flow through the load in the second slide.The names of the classes used to create the animation are as follows:
PV SOLAR SKETCHUP LAYOUT TEMPLATE DOWNLOAD PROFESSIONAL
The flash animation is developed using Macromedia Flash Professional 8. When the electrons are excited, they move through the titanium dioxide to pass to the top glass plate. When the light hits the dye, the electrons are excited and have high energies. In this slide, you can see the high energy electrons move through the titanium dioxide. When you click the lighting rectangle inside the cell, you can see the detailed electron movements through the titanium dioxide. To complete the circuit, carbon backing help them pass to the electrolyte solution. When the high energy electrons move through the system, they lose their energy in the process and return to the lower conductive glass plate. The electrons in the electrolyte have lower energies and they move up to return the electrons that the dye needs.Īgain, to replace the electrons in the electrolyte which move upwards into the dye, we use a carbon backing right above the lower conductive glass plate. To replace the electrons which are excited, we use an electrolyte solution which is made up of iodine ethylene glycol. Then they move through the conductive wire and start the circulation. When the electrons are excited, they move through the titanium dioxide and pass to the upper conductive glass plate. When the light hits the dye (the upper half of the inner cell) the electrons are excited and have high energies. Blue light is absorbed at the top, then is the green light, and at the bottom comes the red light. In the upper part, the light goes through the top glass plate and then it is absorbed level by level depending on the wavelength. The key part of the system is shown in the second slide, which is the Energy Conversion. You can see the detailed reaction by clicking the lighting rectangle. There is a reaction occurring inside the glass plates.
![pv solar sketchup layout template download pv solar sketchup layout template download](https://www.inbalance-energy.co.uk/images/uk_solar_radiation_map.jpg)
In the first slide, you can observe the light source, the cell -which consists of two conductive glass plates-, and the load, which represents the consumption of the electricity generated by the system.
PV SOLAR SKETCHUP LAYOUT TEMPLATE DOWNLOAD DOWNLOAD
Dick Steflik and you can download FileZilla at for free.īasically, the animation has the following three parts: The authentication information for the server can be requested from Prof.
PV SOLAR SKETCHUP LAYOUT TEMPLATE DOWNLOAD SOFTWARE
You can use a software such as FileZilla to access the FTP server. swf files for flash movies can be obtained from Prof. It's a really useful tool to create flash movies without too much programming effort.Īll web content including.
PV SOLAR SKETCHUP LAYOUT TEMPLATE DOWNLOAD MOVIE
The flash movie clips on the website was created using Flash Slideshow Maker software. A web page template was used to display the web content. A CSS Style Sheet was used to align each content on the website to avoid alignment faults observed in different web browsers. The website was developed using Macromedia Dreamweaver 8. Project documents and a Google SketchUp animation can be accessed from the website. The flash movie on the Animation page is the one we used for the project presentation at the end of the semester. There is a flash movie clip on the Home page and on the Project page. The website includes various information on the project. The URL for the website for the project is: Content Complement these investigations for energy conversion by fabricating prototype solar cells.Demonstration of potential of nanotechnology in developing new materials, forming thin film photoactive solar cell device components.Use nanotechnology methods to create unique ensemble of nano semiconductors thin film layers and nanostructures.The project focuses on advancing in the following areas: