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You define the year in the batch parameter csv file. As in the video tutorial un minute 7. Now indeed it seems like you are not varying any of the parameters and simulate the same project 25 times.

Hi Linda, Yes. Even when I change the Year No. to "25" in the "Aging" section within the "Detailed Losses", it seems to produce results related to that specific year as many times as there are rows. How do I ensure that each row is for each year, and not one year repeated across multiple rows (as attached)? Your assistance is really appreciated.

Hi, It seams like you have set all the simulations for year 1. In the 15th column "Simulation Year"

Hi, Linda. When following the steps in the second video, I cannot seem to find the approach to simulating data for 25 separate, consecutive years. My resulting batch CSV shows the exact same outputs for all inputs, as per the attachment below: Please may you advise on where I went wrong or how I can edit inputs to show independent losses and resulting parameters to show the inverter behaviour over a 25-year period. Thanks again.

Thank you for this feedback, Linda.

Hi, You find information of how to define the ageing in the following tutorial: The Batch mode is described in the following tutorial:

Hello, When using the independent MPPT inputs feature, it is very important to have a multiple between the number of strings and MPPTs in each sub-array, or PVsyst can not equally distribute the strings over the MPPTs and you risk incorrect evaluation of the inverter losses over nominal inverter power. The MPPT and Power sharing feature is fully described in the following youtube tutorial:

Hello, I noticed something in the software regarding inverter loss over nominal inv. power : The creation of a subfield for each MPPT in the system or t he grouping of multiple MPPTs into the same subfield leads to significant simulation differences (see the example below with an additional 3% in losses). How PVSYST manages the repartition of strings when we don't create a subfield for each MPPT ? Is there a trick to avoid creating a subfield for each MPPT (to save time) without generating these losses? Thanks you for your help

A client has requested that we conduct an assessment of string inverters versus central inverters on PVsyst by analysing the inverter losses on an annual basis for a 25-year lifecycle. In addition to the typical losses displayed in the simulation report, they would like to see the annual clipping losses as well as the nett yield as a result of these losses by means of a 1 - 25 year generation table (I have read that this is done via PVsyst's Batch Mode capability, but needed guidance on the approach). Please may you assist by providing assistance on how to approach this client request on the PVsyst platform for both scenarios. Many thanks!

In the case that different PV modules (and unique .PAN files) are defined in Subarray 1 and Subarray 2, how does PVsyst consider the different temperature coefficients and low light performance of each module in the simulation? I can see one aggregated number in the results, but I am wondering how the calculation is performed and if the unique module / .PAN characteristics are both considered. Does the answer change if the mixed modules share an inverter?

Hi all, We are currently performing a technical comparison between PVsyst and HelioScope for a C&I rooftop project (FEMSA Coca-Cola case), and we observed that shading losses reported in HelioScope appear lower than those obtained in PVsyst. In PVsyst, we are considering: Near shading irradiance losses (~3.5%) Additional electrical mismatch losses due to shading (~1.9%) This leads to a relevant question from a modeling standpoint: In HelioScope, are shading losses reported as: Pure irradiance (geometrical) losses only?FEMSA_ Coca-cola_ Tocancipá_Project.VC1-Report.pdfFEMSA_ Coca-cola_ Tocancipá_Project.VC1-Report.pdfFEMSA_ Coca-cola_ Tocancipá_Project.VC1-Report.pdf Or do they already include the electrical mismatch effects caused by partial shading? From a methodological perspective, we are trying to understand whether including: Irradiance shading losses, and Additional electrical mismatch losses could potentially lead to double counting in PVSyst, depending on how each software handles the shading model internally. PVSyst results: Helioscope results: We would appreciate clarification from anyone who has experience reconciling results between the two platforms. Best regards, Angel Duarte

You are correct, DTArrGl is weighted using GlobEff but it is computed as follows: DTArrGl = (T_Array - T_Amb) / GlobEff Note that it is only calculated for GlobEff > 7W/m2 and set to 0 otherwise as it becomes insignificant for very low irradiances.

Hello, I have a question about the DTArrGl parameter. On the help page it says it is DTArr weighted by the "effective" global irradiation which I have assumed to be GlobEff. I'm having trouble understanding how this is calculated though. To my understanding, being weighted by something means that GlobEff should be multiplied by DTArr but this doesn't appear to be the case. Any support would be helpful

Hello, This depends on your system layout. If the majority of the shadings are regular mutual shadings, you can leave the fraction for electrical effect to 100%. If you have several shading objects in the scene causing irregular shadings, you might need to adapt this value. This is furthered discussed in our help: https://www.pvsyst.com/help/project-design/shadings/electrical-shadings-module-strings/index.html#module-layout-reference Kind regards

Hello, can you please tell what is the "standard / recommended" percentage for the electrical effect when using a slow simulation ? i'm using a 3D scene, two strings in portrait with a halfcut modules.

The last generated Monte Carlo values is for year 30. You can still simulate a degradation beyond this, though after 30 it is assumed to be a linear trend.

In the coming PVsyst version 8.1, several input parameters can be defined as hourly values via a .csv file. This will allow snow coverage (in %) to be specified on an hourly basis if desired. However, we are not currently implementing more advanced snow-coverage models, though this is on our roadmap for a future version.

Hello, If you for instance have self-consumption or storage, System production production is not necessarily the same as E_grid. What version of PVsyst are you using? There may be differences due to rounding of results when saving files. However, these differences are necessarily negligible. If they are not, there may indeed be a problem and feel free to export your project as a zip file and send us an email to support@pvsyst.com

Good morning, Are you planning to account for snow losses? In 2017, you considered using an hourly snow coverage ratio set by the user. The key issue was evaluating electrical mismatch when only part of the system has snow cover. Some providers supply snow loss and soiling data; do you have ideas for integrating these into PVSyst? The second ones are easy, the first ones no. Thank you very much!

Thanks for your response. Just to confirm, is the 30-year period in PVSyst 8?

Bumping this. Any plans to incorporate this in future versions? Modern design software spit out shd or pvc files quite easily (both should be able to be imported). I think the only hangup with this is the partition definition for each shade scene, but if this were added to 3D shadings parameter, the user could define the geometric area of a partition that gets applied to each scene. Diffuse shading can be set to central tracker for quick analysis by default, backtracking activation is already an option for batch sims.

Hi, The Monte Carlo values are currently generated for up to 30 years. For simulations extending beyond 30 years, a linear trend based on the last two data points is applied. Thank you for your feedback. I’ve noted the interest in generating Monte Carlo values over a longer horizon and potentially this can be developed for a future version.

Hi, I'm curious how / where the spectral correction model (e.g. when using First Solar) is applied. It's reported as a power correction in the output file; when I compare that power correction to Earray (or EarrMPP), the relative difference is close to - but not exactly the same - as the spectral correction factor calculated with the Gueymard & Panchula/Lee models. Is the correction applied to one of the irradiance quantities, and if so - which one? Thanks! -Johan

Regarding the aging: Is there a specific reason why the Monte Carlo values are only calculated up to year 25? Most projects now have lifespans extending beyond that. Would it be possible to increase the number of steps, perhaps up to year 40? Thank you.

Hello, does someone know if it makes sense to decrease the "fraction for electrical effect" percentage (i.e. from 100% to XX%) to take into account the supposed better behavior of BC modules (Longi, Aiko, ...) in terms of electrical mismatch induced by 3D scene shading (for a utility-scale PV plant)? A manufacturer proposes to set the fraction to 70% according to its investigation and some laboratory tests by TUV, but I'm not sure they can completely trusted. Did anyone encounter the same issue/doubt? Does PVsyst team have any suggestion on how to handle this in PVsyst (if possible) and if make sense to set to 70%? Hope to have any feedback. Kind regards Michele