• il y a 11 mois
Pompage Solaire pv avec logiciel Moutens Solar, vidéo numero 1
Transcription
00:00 Dimensioning of a 50 m3 solar pump per day
00:05 Well, that's the subject of this video
00:11 We will see how it works with solar motors
00:15 As you can see, the interface of the solar pump is to be presented as follows
00:26 We have a picture of the pump, a field with parameters, inclination, state of the sky, diagram and system
00:35 We will study all these fields
00:39 As we said last time, it's a 10 minute video, we will do it in 10 minutes
00:47 I think it will be fine
00:50 Let's start with the state of the sky
00:56 In relation to the comment of the person who wrote to me about the cloud state
01:05 Today we are in the dimensioning of a cloud state, with solar motors, even with the sky in the shade, it is covered
01:22 I will choose the option "sky, very cloudy, covered"
01:33 I took the radiation of Cameroon, the city of Douala
01:39 It is this one that I mentioned, the solar pump
01:44 As you can see, we have chosen the cloud state
01:50 Then I will choose the inclination of the panel, it is very important because the radiation depends on the inclination of the panel
02:03 When the inclination of the panel is favorable, we get a good position
02:09 With our solar motor, it allows us to charge from here
02:16 We can see that the cloud is very cloudy, we have to lower the radiation a little
02:37 Here we have a good position, I accept
02:41 Here in this camp, we will dimension according to the average value
02:52 We can dimension according to the seasonal value, for example, according to the radiation of September
03:06 We take it as a general case for all installations, but for this case, we will dimension according to the average value
03:13 Here we have the diagram, for this we will not go into details, here we can study the solar motor, the solar mask
03:24 It allows us to study the solar mask to integrate a total curve
03:28 In this case, the program has given us a solar description with the solar motor, we do not need to study
03:42 What the officer has proposed, but this functionality is available for countries that are not yet in RIS or for those who want to do a fairly precise job
03:53 Now we will enter the system itself
03:58 We will dimension according to the case of an emergency pump, whose height is 90 meters, 100 meters
04:15 I will enter the consumption, day by day, we have 50 cubic meters
04:21 50 cubic meters of storage, we will take a storage of 35 cubic meters
04:40 Here we have the height of aspiration, the height of aspiration is for surface pumps, and the height of swelling is for submerged pumps
04:49 We will take the case of 90 meters depth
04:58 Here we see the reset, it starts to calculate the flow rate and the manometric height
05:05 We will continue, we will enter the level of water in the pump, inside the borehole
05:13 In pumps, the height can be 8 meters, and we will take 8 meters
05:29 The reset has generated the flow rate per minute or per hour, and the total height manometry
05:38 We have 103.5 meters
05:45 The reset gives us the details of the water level
05:52 Now we will dimension according to the case of an emergency pump
05:59 We will base ourselves on the height manometric flow rate per hour for dimensioning
06:05 The software gives us two possibilities, either to integrate directly the parameters of a pump that we have at our disposal
06:13 That is, you can go to the market, push these two parameters