1. Open mat lab and run the Rotary_Housing function with different E,R values depending on your desired size, I provided sample values in the mat lab file
2.HHS is a value that shows you the center to the side of the housing, the height will be slightly larger than CT, use these to gauge how big you want your engine
3. 1 is denoted as true in my code if the value is not measurable so self_int = 1 indicates your housing will not work. Concave and Convex, are to lead you to open one of the two assemblys! NOTE: convex rotors are quite buggy for me, in encourage you to use my convex solid works files and starting pointsnot final products.
4.Open convex or Concave and import the Equations file, under tools-equations if not already loaded. 
5. Edit the Housing Curve and import the respective housing data for needs!
6.Edit and Modify my base files to your hearts contentPLEASE provide credit If possible :)
Contact Info:
@pistonsoup on Instagram (if your into drifting ;)!)
Joe.wilson.iii@outlook.com for email!
I encourage you to please provide criticism of any kind
Sources:
Nash, David H. Rotary Engine Geometry. Mathematics Magazine, vol. 50, no. 2, 1977, pp. 8789. JSTOR, www.jstor.org/stable/2689731.

Norbye, Jan P. The Wankel Engine: Design, Development, Applications. Chilton Book Co., 1975.

(housing equations and geometric help)
