Building Information Modeling Implementation (BIM) is a management task that has undergone major changes. Therefore, identifying the critical success factors in BIM implementation and identifying its implementation challenges in the construction industry is a prerequisite for this change process. The purpose of this research is to understand the construction industry in order to provide a clear understanding of the application of BIM and to provide a suitable way of the mobility of people to implement more comprehensive BIM, which in turn, implements modeling. Building information provides strategies and recommendations for the construction industry. This research, based on a review of previous study, BIM implementation methods and critical success factors in the field of implementation have been discussed, which opens the way for quantitative and qualitative method analysis. Also provides a solid foundation for organizations to make informed decisions in implementing BIM in the body of the organization structure. The main purpose of this research is to identify the factors that are important for the success of BIM implementation. Such factors include BIM potentials and the impact of these potentials on improving the performance of the companies that implement BIM. The research based on a literature review, and presents survey results and significant factors identified on the impacts of BIM implementation and organizational performance improvement.
The temperature field distribution at the liquid-air interface in drops of water and water solutions drying on a glass substrate is studied with thermal imaging means. It is shown that irrespective of the liquid composition, the circumferential temperature of the drops (along the boundary line) is always higher than the temperature on the top. The temperature field on the surface of the drops is nonstationary and varies chaot ically during water evaporation. It is found that the dynamics of histograms for albumin containing and albu min free liquids differ. Mechanisms behind the origination of thermocapillary liquid flows and their directiv ity in the drying drops are discussed.
This paper discusses the problem of the demand for modern thermal vision in medicine. The causes of the decline of interest in it among clinicians are considered, and possible ways are presented of improving the methodology of thermal-vision equipment and the optimum versions of the application of medical thermal-vision apparatus at various levels.Since the 1990s, this country's physicians have shown a reduction of interest in thermal vision. This was mainly associated with the following causes:372