In my graduation thesis, I elaborated an interactive tool and analysed the impact of varying parameters on the response of systems that ensure passive solar heating. The main purpose of the paper is to acquaint the reader with concepts of bioclimatic design and thoroughly show the reader the operation of selected bioclimatic design measures, using thermodynamic models created in the Energy2D, an interactive multiphysics simulation program. The first part of the thesis is a theoretical description of passive solar architecture, bioclimatic design, and bioclimatic design measures of the heat admission strategy that I analysed in the second part using a 2D thermodynamic model. The methods and results of the analysis are presented in the continuation of the thesis. Based on the same building geometries, I used the Energy 2D program to deal with the system of direct gain with distributed thermal mass, the Trombe-Michel wall system, and the sunspace system. I illustrated the impact of changing the parameters on the operation and efficiency of each bioclimatic measure on each of the models. In the end, I presented the results with the help of graphs of temperature versus time, commented on them and compared them.