algorithmic modeling for Rhino
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Hi Chenyang,
If you want to examine the energy benefits of a green roof in the interior then create a construction material with the same U value (and other values whose influence you want to test) as this of the green roof you are planning to use. If you want to elaborate more then try to create different layers with values reflecting the values of the layers that form your green roof. If you want to examine benefits related to the exterior environment like heat-islands or comfort then the simulation of a green roof must done with another level of detail which I don't really know. Regarding the interior though I have already used these solutions and work pretty accurately!
Hope it helps!
Tasos
Hi Chenyang, I forwarded a couple of emails from EP discussions on modeling green roof to you. It would be great if you can share your final findings here. We may create a parametric Green Roof construction for Honeybee. Looks like there is also and example file in EnergyPlus example files for modeling Green roof.
For modeling a building with surfaces underground move your model to -z and Honeybee will assign ground as the boundary condition. Alternatively you can assign ground boundary condition to the surface manually.
Hi Tasos, on that note, do you have an example of different layers of Green roof that you can share?
Mostapha
I was doing a very brief research on this a while back and I came across an interesting article:
Energy Simulation of vertical greenery systems, Wong et al. 2009, Energy and Buildings.
It was interesting for two reasons. One, it gave an example of U calculation of a typical green wall system (values could be similar for a green roof) which allows for the simulation of greenery over a wall or roof material. The system was something like the below (with the interesting r-values attached):
LAYER R-value
Outside air film
Turfing 0.360
Substrate (0.1m) 1.923
Air gap (0.1m)
Wall
Inside air film
The second reasons was an equation they were using to calculate the shading coefficient of the greenery. In the literature, the leaf density is usually correlated with the shading coefficient of the greenery, which makes sense. This isn't as interesting for green roofs but it does provide a simple way to simulate green walls over fenestration. The correlation equation between LAI and SC was this one:
Shading coefficient (y) = -0.3043 x Leaf area index (x) + 0.8112
I used this equation in a couple of examples to calculate the SC of vertical green walls.
Hope this is interesting.
Regards,
Theodore.
Hi Mostapha, all,
Nice feedback and very interesting topic!
The layers of a green roof depend always on the type (extensive, graveled, paved, intensive) that has to do with the type/size of vegetation and the substrates you need to use for each type and of course from the manufacturer. I am attaching a link to an example manufacturer where there is an explanation of potential layers and options. Also please check this link (in German) for an extremely elaborated breakdown of greenroof types and material used for each type. Finally this report from Ashrae Journal in 2006 that claims that Green roofs are expected to have various R values across their span from R-17 in the middle to R-38 at the edges. Based on the last paper I would say that is indeed very difficult to simulate one very precisely and I don't know if there is a good reason to do so if you know the layers and R-values of each layer and you want to evaluate potential benefits in an early design stage.
Unfortunately I havent done any similar simulation in HB but I am planning to for the project I work on. I will probably stick to this level of detail though and will not try to elaborate further. I did simulate some green roofs with Ecotect some 3-4 years ago and the results were at least as expected!
Hope this helps!
Tasos
Chenyang,
For below-grade buildings, any Honeybee Zone or Surface that is below the Rhino Origin is assumed to be underground by default. If you have a ground condition that is not planar, you can use the "EPBC_" input of the createHBSrfs component to set the condition of any honeybee surface to be next to the ground like so:
For the green roof, Tasos's method is probably all that you really need to account for most of the effect that you would have with a green roof. I should note that recent versions of EnergyPlus include a green roof material, which helps account for the fact that you get transpiration of the plants on the roof in hot conditions, creating a cooler surface than you would have otherwise. In my experience, the use of this material has a negligible effect on the simulation when you already have a lot of insulation in the roof. Sill you can account for it by putting in a custom text string for the green roof into the EnergyPlus Construction component like so:
You can find a GH file attached that includes the green roof text string in a panel.
-Chris
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