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Add simplified PV system model based on 5p analytical modeling approach #1575
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@mwetter What do you think about the model's features? |
@LauraMaier : This would be a good addition. I would prefer to put it in within Buildings.Electrical.DC.Sources.PVSimple;
model PVDetailed
extends Buildings.Electrical.BaseClasses.PVSystems.YourNewModel;
// Terminal that will use the real output, but in the physical quantities used in the library
Buildings.Electrical.DC.Interfaces.Terminal_p terminal "Terminal for electrical connection";
.... ...
|
@LauraMaier: This is a very a good suggestion. As I told you in our discussion during BS 2021 in Bruges we also have in our BuildingSystems library a PV generator model which is subdivided in an electrical, an optical and a thermal model (https://github.com/UdK-VPT/BuildingSystems/tree/master/BuildingSystems/Technologies/Photovoltaics). If we put all together our knowledge in a common PV model for the IBPSA library this would be great. I think one important topic which we should duchess will be the accuracy of the model (e.g. one diode or two diode model) and the availability of the therefor needed model parameters. For this purpose, it could also help to take a look on the database of the Polysun simulation tool. This database includes thousand of different PV generators from worldwide manufactures and also for generic PV generators. |
@mwetter Thanks for th suggestion. I will gladly adapt it to the proposed structure |
@nytschgeusen Thanks, Christoph. Indeed, I have already scanned your very good models and will merge our modeling approach with yours! If you prefer to have a bilateral discussion before I start implementing, I am happy to arrange an online meeting. What do you think? |
@LauraMaier: yes, an online Meeting would be great. Here you can find for the beginning of our discussion a relatively old publication, in which our PV model was applied for solar driven cooling systems: https://www.aivc.org/sites/default/files/p_1460.pdf |
@Mathadon and @nytschgeusen: @mwetter and me just discussed about the potential structure of the PV system and inherently also the structure of the new electrical package of the IBPSA library. So what do you think? |
@LauraMaier and I just discussed the proposed reuse of the electrical infrastructure models of the Buildings library. We agreed that we will use a subset of them for the new PV system package. |
Hi @nytschgeusen, @mwetter, and @Mathadon: Please note that the packages DataBase, BaseClasses and PVSystem still follow an old logic that we first wanted to implement and can be ignored! As these changes greatly affect the further model development, I would like to get your feedback if you agree with the basic structure and the use of existing smaller models (Interfaces, Sources, Loads, etc.) of the Buildings library. |
The IBPSA library is currently missing a PV system model which can be used in the context of building performance simulations.
The intended model will have the following features:
The model will consist of three sub-models, namely a cell temperature, an I-V-characteristic, and a radiation and absorbance model
The model's input are the weather bus
BoundaryConditions.WeatherData.Bus
(DryBulbTemp, wind speed and global horizontal irradiance)The model's output is the DCOutputPower as Real Interface
The sub-models have the following characteristics:
1. Cell temperature model
2. I-V-characteristic
3. Radiation and absorbance model
What steps are necessary to solve this issue?
Electrical.PVSystems
Electrical.PVSystems.PVSystem
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