Relais Autonome » Historique » Version 13
Laurent GUERBY, 12/10/2011 13:00
1 | 1 | Olivier FONTES | h1. Relais Autonome |
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2 | 1 | Olivier FONTES | |
3 | 1 | Olivier FONTES | Essais |
4 | 1 | Olivier FONTES | * [[Test du kit Photovoltaique Ekko 12W pour alimenter un WRT autonome]] |
5 | 2 | Julien Aubé | |
6 | 13 | Laurent GUERBY | Panneaux solaires |
7 | 8 | Laurent GUERBY | * http://www.motto-engineering.eu/en/products/solar/schott-solar/ |
8 | 7 | Laurent GUERBY | * http://www.mercateo.com/q?query=solarmarkt&catcat=live~showGrossColumn* |
9 | 6 | Laurent GUERBY | * http://www.ebay.de/itm/Schott-Solar-ASI-103-Photovoltaik-Solar-Solarmodul-/220871992555?pt=Solaranlagen&hash=item336cff24eb#ht_1312wt_1141 |
10 | 2 | Julien Aubé | * http://www.simple-et-solaire.com/panneau-solaire/panneau-solaire-12v/panneau-solaire-amorphe-95wc.html |
11 | 1 | Olivier FONTES | * http://www.birdenergy.fr/shop/catalog/index.php?cPath=26 (Régulateurs multi-entrée Solaire/Eolien/hydro) |
12 | 1 | Olivier FONTES | * http://www.energiemobile.com/modulosite2/catalogue-produits.htm |
13 | 13 | Laurent GUERBY | |
14 | 13 | Laurent GUERBY | Batteries |
15 | 13 | Laurent GUERBY | * http://www.energiedouce.com/batterie-au-gel-a-decharge-profonde-12v-110ah-victron-energy.html |
16 | 13 | Laurent GUERBY | * http://www.installer-panneau-materiel-solaire.com/batteries/?mod=ecommerce&prid=&rid=4&type=pro&marque=&prix=&autre=&page=0 |
17 | 5 | Laurent GUERBY | * http://www.maurelma.ch/shop/index.php?cat=WG101&product=740089 |
18 | 3 | Laurent GUERBY | |
19 | 11 | Laurent GUERBY | Eolien |
20 | 11 | Laurent GUERBY | * http://www.aerial.net/shop/index.php?cPath=104 |
21 | 11 | Laurent GUERBY | * http://www.aerial.net/shop/product/1101/macrowind-400w-12v-6-blades.html |
22 | 12 | Laurent GUERBY | * Test de petites eoliennes http://www.bettergeneration.com/green-energy-reviews.html |
23 | 11 | Laurent GUERBY | |
24 | 3 | Laurent GUERBY | Forums |
25 | 3 | Laurent GUERBY | * http://forum-photovoltaique.fr/viewtopic.php?f=40&t=22015 |
26 | 9 | Laurent GUERBY | |
27 | 9 | Laurent GUERBY | Doc |
28 | 9 | Laurent GUERBY | * http://www.posharp.com/photovoltaic/panelefficiency/database.aspx |
29 | 9 | Laurent GUERBY | |
30 | 9 | Laurent GUERBY | |
31 | 9 | Laurent GUERBY | > Cell Type: The type of silicon that comprises a specific cell, based on the cell manufacturing process. Each cell type has pros and cons. Monocrystalline PV cells are the most expensive and energy intensive to produce but usually yield the highest efficiencies. Though polycrystalline and ribbon silicon cells are slightly less energy intensive and less expensive to produce, these cells are slightly less efficient than monocrystalline cells. However, because both poly- and ribbon silicon panels leave fewer gaps on the panel surface (due to square or rectangular cell shapes), these panels can often offer about the same power density as monocrystalline modules. Thin-film panels, such as those made from amorphous silicon cells, are the least expensive to produce and require the least amount of energy and raw materials, but are the least efficient of the cell types. They require about twice as much space to produce the same power as mono-, poly-, or ribbon-silicon panels. Thin-film panels do have better shade tolerance and high-temperature performance but are often more expensive to install because of their lower power density. |
32 | 9 | Laurent GUERBY | > Sanyoâs "bifacial" HIT panels are composed of a monocrystalline cell and a thin layer of amorphous silicon material. In addition to generating power from the direct rays of the sun on the panel face, this hybrid panel can produce power from reflected light on its underside, increasing overall panel efficiency. |
33 | 9 | Laurent GUERBY | > Cells in Series: Number of individual PV cells wired in series, which determines the panel design voltage. Crystalline PV cells operate at about 0.5V. When cells are wired in series, the voltage of each cell is additive. For example, a panel that has 36 cells in series has a maximum power voltage (Vmp) of about 18V. Why 36? Historically, panels known as 12V were designed to push power into 12V batteries. But to deliver the 12V, they needed to have enough excess voltage (electrical pressure) to compensate for the voltage loss due to high temperature conditions. Panels with 36 ("12V") or 72 ("24V") cells are designed for battery-charging applications. |
34 | 1 | Olivier FONTES | > Panels with other numbers of cells in series are intended for use in grid-tied systems. Due to the increased availability of step-down/MPPT battery charge controllers, grid-tied panel |
35 | 10 | Laurent GUERBY | |
36 | 10 | Laurent GUERBY | * http://www.freeenergyeurope.com/htm/FEE_solar_panel_test_results.htm |