h Shading--DC to AC derate Factor--Photovoltaics Module, can calculate the ACenergy of different pv arrays by Galapagos. The process can evaluate the self shading from the input analysisGeometry and surrounding shading from the input context.
2. PV SWH Systemsize, can also do that, but there would be no second type of self shading for the chosen minimalSpacingPeriod_ criteria.
3. TOF outputs optimal angle and azimuth.
So my question is, if I choose to make a curved roof to form a best pv array with best ACenergy, whether should I only choose the first above, the second PV SWH Systemsize can only deal with the angled or flat surface, not the curved? What's the relationship between TOF and PV SWH Systemsize?
Also, I'll do my best to make a parametric model as soon as possible and upload it to you, so we can make the discussion more detailed.
Best regards.…
face, the larger the number of modules and system size, there for the higher annual energy generation.baseSurface_ - this input exists only for "PV SWH system size" component. It's purpose is to represent a mounting plane on which the PV modules will be put onto. The dark blue colored roof in the photo below is that mounting surface in this case:
So the size of area of the baseSurface_ is not important but its plane.
2) It is important. It basically sets the initial losses of the system.
If that is the soiling value you have, then yes, you need to add it to the DC to AC derate factor component, and then plug its output to "DCtoACderateFactor_" input. I did that in the attached definition below.
3) The north vector/numeric value is not propagated due to possible independent usage of components.I plugged the 0 value to all three component's which have "north_" input. You can change it to what ever value you need.
Please let me know if I didn't answer completely to your questions, or if you have more of them.…
rs interface og dykker derefter ned i mere komplekse parametriske modeller. Vi vil desuden arbejde med forskellige funktioner, der hjælper med til at gøre modeller mere responsive og interaktive.
Efter kurset vil du have/kende til:
Basale inputs og parametre, punkter og vektorer, og små geometriske eksempler
En forståelse for Grasshoppers interface og teorien bag den visuelle programmering
Kendskab til og forståelse af de væsentligste komponenttyper i Grasshopper
Matematiske principper, der giver mulighed for sortering gennem sandt/falsk og mindre-end/større-end udsagn
Dataflow: midlertidige og permanente data
Forene og styre data-input, samt en dybere forståelse af Grasshoppers datastyring.
Styring af lange data-lister og data-træer i Grasshopper
Eksempler på parametrisk geometri, som feks. attractorpoints
Brugen af Grasshopper som et panel værktøj, der giver mulighed for at beklæde overflader med paneler baseret på underindelinger, gradienter og attractor points
forberedelse af egne definitioner, med fortsat fokus på projektets responsibilitet.
…
on this, but to my understanding, the Δt_pr used is the same - the equations used to calculate are not. Take a look at this (from EN 7730 as well):
If I can make some wishes too; it would be cool, if you included the last local comfort metrics from EN7730 in LB/HB as well. Besides the local asymmetry there are: an equation for warm/cold floors, stratification and draught. I know, that you will need preform a CFD simulation to properly calculate stratification and draught, but the comfort equations are really simple and seeing that you have(might have) a CFD tool under way it could be useful. Anyways I think it would possible to import external generated CFD data to grasshopper.
The pictures in my previous post are from a paper called: "A simplified calculation method for checking the indoor thermal climate" by B.W. Olesen, it can be found in ASHRAE 1983, vol. 25, issue 5. I don't know if there have been any updates to it since '83.
Looking forward for the new components, and if there is anything I can help with please let me know.
/Christian
…
te some cut sheets, but not to optmize material, rather define some cut lines. Everything that I am cutting is made of planar wood elements, but there are very specific geometries (mostly straight lines) and I have to put tolerances and radiasas at the corners in order to cut on the cnc mill. Spending time to figure out how to automate is necessary, but I am stuck!
One thing the definition is doing is taking my brep modeled components in rhino and makking them into 2d close curves and laying them side by side. It works...not ideal as its not layed out in a sheet, but that is not the most important part.
Another particular problem is that you will see some notches in the curves, which other pieces will slip into, so different slots need different specific offsets (making them larger) as a toelrance to allow for material play. This I don't even know how to set up so maybe it will just have to wait.
THE MAIN QUESTION, and super important would be, LIFESAVER:
At all 'inward' corners...which I think will always mean concave corners (most are 90 degrees, but are within to sides, instead of a corner sticking out). I'm sure its obviousy, but the reason being the outward corners a circular dril bit can cut, but inward ones need an arc profile extended beyond where the corner of the other piece will fit into. The drill bit i am using is 6mm, so 6mm diamters arcs is what i'm working with.
I have managed to put such an arc at every vertices of each cut piece. The problem being some stick outward isntead of cutting into the piece. So each one needs to be orieneted correctly. Ideally they would also only draw into inward corners, but I can always delete them out. I think maybe I am missing a more logical mathematical way of defining?
For these geometries it is not very important which side the half circle arc in on in the inward corners, but I also have some geometries that I will have to control where the circles face according to the rest of the cut piece.
The cutouts in the middle of the pieces that are curves do not need such corners obviously.
The picture is an example drawn
I hope this isn't too specific and long. in general though automating fabrication, and controling pracitcal math and orientation problems like this is itnersting to me!
THANKS…
perienced with grasshopper, but so far I've managed to combine the following:
Giulio Piacentino's "Catenary arch from height" script
Pirouz Nourian's "Mobius" script (Obtained from a friend)
End Result:
Here's where I'm stuck: I want the mobius twist to revolve around the midpoint of the arch, but the script uses the input values to determine the endpoints, resulting in a weird sinuous shape when viewed from above. Also, the secondary end points (generated by the mobius script, determining the width of the surface) are generated by default along the z axis, resulting in an arch that only touches the "ground" at two points. I attempted to work around this issue by trying to force the zHeight parameter to correspond with the y axis (thus rotating the arch 90 degrees so it would lay "flat"), but the script interprets the third point as a value and not as an actual point to bisect. I thought this might be an issue with the C# component that I obtained from Giulio Piacentino's script, so I attempted to tinker around with the source code. Unfortunately, I'm not fluent in C# so I only managed to mess everything up (I've since recovered the code from the cache). Anybody got some ideas? -BC …
elivering their latest workstation and graphics technology.
Intensive computing and exceptional graphics technology will deliver generative modeling and computing to its next level.
Participants will learn the ease of use of Grasshopper within Rhinoceros, so they could start creating their own generative design.
Who should attend:
1. Professionals in design and engineering industry who would like to gain more knowledge and productivity
2. Students who would like to extend their knowledge to the next level
3. Supporting IT who would like to provide even more efficient tools for engineers and designers
4. Engineering and Design Enthusiasts
Participants should send an email to fani@m3kom.co.id, to receive an invitation and its detail.
For further technical information about the event, feel free to ask Rendy (tihe.tihe@gmail.com).
This event will consist of the sneak preview of most anticipated real-time rendering for Rhinoceros: V-Ray RT for Rhino.
Hopefully, this will also initiate the establishment of Indonesia's generative modeling designers community in Indonesia.…
this workshop is to materialize a chair designed with help of generative algorithms via robotic fabrication. To design the form of the chair we will go through an intensive course of generative design techniques, k-means clustering, structural analysis and optimization done with the help of Anemone, Galapagos, Millipede and other plugins. Finally we will employ a 6-axis robot with custom tooling to fabricate the chair via robotic rod bending. No prior experience with Grasshopper or robotic fabrication is required, although basic knowledge in 3d modelling would be an asset. // APPLICATION The deadline for application is 13.03.2017 Apply by sending email titled ‘workshop_chair’ to workshops@aan1.net // INFO If you have any more questions check the www.aan1.net website or contact us with email workshops@aan1.net // FEE We have special pricing for students, as well as an early bird offer. Check the Eventbrite list to get more details. Please bear in mind that a limited amount of seats is available (minimum 8 people, maximum 16). ORGANIZERS: Maria Smigielska, Mateusz Zwierzycki, AAn+1 TUTORS: Maria Smigielska, Mateusz Zwierzycki PRICES: Early Bird Student 280 E Early Bird Pro 320 E Regular Student 300 E Regular Pro 350 E…
p 10 "Scripting Reality – Integrating 3D Point Clouds in parametric design workflows".
This research-based workshop will introduce participants to thegeometrical class of point clouds and ways to handle, manipulate, analyse and script with them. Participants will as well have the chance to get first-hand knowledge in the handling of 3d capturing devices and to link their outputs directly into a design environment.
The workshop poses especially the question of how changes on architectural scale can be tracked over time. Related algorithmic concepts and the Volvox plugin, allow for the first time to directly access and manipulate point clouds in a parametric design environment, will be introduced to the workshop participants. A 1:1 experiment on the ETH campus will provide a testbed. Participants will learn point cloud processing and learn to track objects solely on the base of point cloud analysis, find deviations against the planned and visualise the results.
The workshop is led by Mateusz Zwierzycki, Martin Tamke and Henrik Leander Evers. FARO provides several 3d scanners with helical adapters and acccess to the FARO SDK for the workshop. The workshop is modestly priced with 160CHF.
register now.
http://www.aag2016.ch/workshop-10/
…
d object1. Traceback: line 96, in join, "c:\Program Files\Rhinoceros 5 (64-bit)\Plug-ins\IronPython\Lib\ntpath.py" line 102, in openStudioPath, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\config.py" line 247, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\config.py" line 2, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\command\_commandbase.py" line 2, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\command\gendaymtx.py" line 3, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\command\__init__.py" line 7, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\__init__.py" line 3, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\_hbanalysissurface.py" line 1, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\hbsurface.py" line 1, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee_grasshopper\hbsurface.py" line 44, in script line 53, in __init__, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\config.py"
It seems a problem with python.. Thanks in advance for any help.…