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Welcome, my awesome friend.

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I hope you all are great.

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Today, we are going to give a streak of more complicated exercises.

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It's the first exercise we are going to design a complete grid connected system.

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Thank you, Lord.

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The second exercise we are going to divide cysteine kilowatt erry in two different every.

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And each day is going to have its own inverter and its own MBT.

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And we are going to make some unbalance between them and connect them.

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And then we are going to give a more complicated one.

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How where we are going to give a two different array with two different orientation.

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Each cherry is going to have its own BBT and its own inverter.

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So that's a start.

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First, we are going to choose a project designed and get connected and let's create a new project.

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And this at a location, go to geographical site and choose UK.

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And this shows London.

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And import and these.

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Weeting.

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Wait, wait for it.

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Okee.

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And a key and safe and key.

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Yes.

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Steve.

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And the close back to the project.

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Now we have added the location, so I'm saying we are going to do it safe.

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A project.

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This is a project we are going to call it.

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It's going to be 10 kilowatt.

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Project.

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OK.

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This project is thinking a lot.

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And made by you.

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We.

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OK.

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OK.

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And safe again, save.

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OK.

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Sentencing.

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We are going to need to do is orientation.

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First we are going to have on deficit dealt.

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And let's say the stealth angle is going to be to eat to get this zero losses.

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And OK, now we have added the orientation angle.

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Second, think we are going to do is the system.

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We are going to need a 10 kilowatt.

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So we are going to eight.

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Their system is going to be thinking, what beat this thing?

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What is that module?

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We are going to choose.

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Jinko Solar as a B.V. module.

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That type is going to be used.

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What we are going to use.

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We are going to use that module, BVA module, see hundreds of.

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Three hundred and seventy people.

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This fully.

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Anyone this choose this one?

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To trust this one.

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Now we are going to need about 30 to 30 to.

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And beefy module.

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Now, let's search for there.

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We are going to use them, in effect, show for inverter, Costo invertors.

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We are going to choose.

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This on this inverted.

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As you see right here, this required to MBT, because we are going to use to strength, it is strength

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has fifteen banner and is connected on as it's on MBT and balls modules.

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And Bowstring had the same B.V. module and OK.

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And stimulation.

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And okay, now you can save it, save.

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And you can see a total rebote.

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This project is similar to the previous project is to let assemble, as you can see.

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We are going to need 10 modules in each string.

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We will need to strength.

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Does this mean we are going to require 30 modules?

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Here you can find the losses.

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And here you can see the energy on the entire year and their performances.

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Let's now say we are going to divide this 18 kilowatt in two different strength, each strength has

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its own inverter and has its own MBT, and its strength is not equal.

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They say the first thing is going to be for.

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And second string is going to be.

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To add to strength.

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So we are going to add to subsystem.

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Now we have two subsystems, the first subsystem is going to be.

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They say he.

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What?

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And second subsystem is going to be for what?

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OK.

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The first one.

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See what it's going to require.

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About 18 modules from this one and require only one drink.

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Second one is going to require twelve modules in series in one thing.

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Okay.

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Now we want to make something called power sharing between those two subsets.

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Because we have now two subsystem, first subsistent is.

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Six kilowatt and second system is going to have four kilowatt, this mean in their first in team is

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going to.

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Share 80 percent, and second, immunity is going to share 40 percent of the port.

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So the total bar is going to be thinking a lot.

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And each one is going to.

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Share and balance, Newt, okay.

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Now we have two subsystems.

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If a subsystem and second subsystem, first subsystem is has a ETM module, second subsystem has an

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TWA's module.

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Okay, how.

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Now we can it.

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Is that about.

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Okay.

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Save.

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And rebuffed, as you can see right here, this project is made by Newie Academy and Simulation Date

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and time.

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And also you can find right here, there DV module.

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We are going to use it to category while you first category has a 18 module in series and one string.

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These 18 million have nominated for about five point nine, 42 want to beat, and that a maximum power

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point.

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Current is eight point seven and the maximum purblind voltage is seeking some hundred and twenty one.

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And the same for you can see in NICUs, subcategory right here has.

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Twelve Modi'in.

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All of them are in series, no modules and barrel.

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You can see right here is our output is going to be three point nine six kilowatt.

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And their maximum barwin current is eight point seven.

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And their maximum, but by and voltage is four hundred and fourteen volt.

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Each one has inverter.

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It's on inverter.

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The first inverter shares three percent.

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The second inverter may sound Bergland cheered 40 percent.

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The total power is going to be 10 kilowatt AC.

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And.

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So Lossing, you can see Zellous, right?

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OK.

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And in that debate, you can see Zebb performance ratio is about eighty seven point three percent and

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the total energy very.

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And this is their second project there.

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They're the project and most difficult one is.

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We are going to use at two modules.

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Suppose we have this house has.

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In this slide oriented erry and in the other side has a B.V. module arteries.

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Those two arrays has a different orientation.

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How we are going to do this is so easy.

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First of all, you are going to orientation instead of using affected Delta plane, you are going to

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use several orientation plane.

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You are using at two orientation only.

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You can add more orientation if you want this discourse.

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The first one, the first one, you can adjust the Delta and Asmus courting to use.

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And here you can find, as discussed in the previous election, they lost Oken.

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Then we are paying for the system.

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By default, you are going to need at two Loba system.

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Grief configuration.

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The first one is going to be on that one.

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Oriente orientation, number one.

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And second one is orientation number two.

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The first one is going to require six to what?

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They're six feet 62.

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What is going to light on here?

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Requite about 18 modules.

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This 18 modules is going to can be connected on Costel in BBT.

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This change is the first category and second duty.

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That's a bit they say at least the first one is going to be 5.5.

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Kilowatt and singing one is going to be four by five.

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A lot.

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OK.

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Now we have two category.

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Each one is going to be on in their store on this and further.

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Single.

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OK.

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Now, we are going to need to make up our sharing or sharing right here.

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Now is the first inverter, the first MBT is going to take a fifty four point eight percent, a second

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one is going to take off forty five point two percent.

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As you can see, both inverter.

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The first category or their first orientation will get 17.

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Modules and second orientation will get 14 modules.

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First one is going to get about.

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You can see.

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Fifty four point eight per cent and the second one gate, forty five point two percent from Zeppos.

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Okay.

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OK.

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Let's run the simulation now.

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And let's see at.

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Save.

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You can see now we have two Category B.V..

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Edri.

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That first, V.V. every.

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It's going to be.

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Seventeen modules and one string.

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And the other bowler is going to be about five points, six one.

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And the second Ray is going to be forum 14 modules in four years and one in strength, one string as

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a bar is going to be four points seeks to ketel what?

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You can see also right here is the first the first B.V. Erry is going to have till 20.

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And as most minus 90 and the.

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Second to Erry is going to have orientation number two to 20.

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And as most ninth.

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Enza said.

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Beach, you can see it right here, this second orientation and first orientation.

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You can see that there formants ratio is.

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Eighty six point nine, eight percent.

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And.

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As you can see here, that bar graph and energy graph and as the last page you can see is the.

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As you can also see, that energy yield in this case is going to be less than the two previous one.

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Of course.

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And this because their orientation and tilt angle is not perfect.

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This will cause a higher loss.

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So their energy produced in this case is going to be in the previous two one.

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OK, guys, that's for today.

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Thank you for watching.

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I hope I see you.