d 'outletBoundary' components in which the 'temperatures_' represents?
The 2nd ques is more about thinking how to achieve more potentials by BF. I am doing a project that is trying to implement the construction method of 'DOUBLE-GLAZED' facade, which will conduct air flow inside a building and save more energy. Since I also use LB&HB for time-based analyses, so I`m wondering if BF could use time-based-srf-temperature to achieve a more dynamic simulation in a day, let`s say, a hot summer day, 10:00 to 16:00?
And the last what is the definition of these recipes(pic no.2)? what do they mean?
Thanks in advance for the helps!
Best wishes,
Lei…
. The rules to dispatch the lines are the next:
I start with a list that alternate true/false; like that: true, false, true, false.
If the angles between those lines are greater than 89° I want to inverse the next part of the list:
True, False, True, False, True, False,...
become
True, False, [>89°] False, True, False, True, [>89°] True, False,...
I managed to create a true false list, to check for the greater than 89° angle, to separate the lines relatively to the angles, but I don't know how to inverse part of the list at certain index.
(In the picture, I have written 90° but it should be 89°, I check for greater than 89° and not equal to 90° because in the real rhino model, the lines won't be exactly orthogonal)
If you have another idea to to reach the same result, it's also okay, I tried to find rules to solve the problems, but I may have overlooked other solutions !
And if there is some part of the patch that are correct but there is easier solution, I would love to learn as I am still new to grasshopper.
Thanks for taking the time to read. :)
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