THEORETICAL PROVISIONS OF FORMATION OF METHODOLOGY FOR CREATION OF COMPLEX SYSTEM OF CONSTRUCTION WASTE TREATMENT
Pages 83-93
Resource saving, ecological safety, rational use of natural resources and environmental protection are currently the priority tasks in terms of implementation of the course towards a sustainable development of the Russian state. Transformation of waste into secondary raw materials for the manufacture of environmentally friendly construction products and other products makes it possible to resolve two problems at once: preserve valuable resources and reduce the environmental load. The article presents theoretical provisions and background for methodology of forming a model of complex system of construction waste treatment in terms of modern tasks for creation of new economically efficient, resource-saving, ecologically safe and waste-free technologies and processes in the industry, as well as the requirements of regulatory acts in the sphere of environmental safety, hazardous waste management, environmental protection and rational use of natural resources. The final target indicator of scientific research in this sphere is the minimization of waste amounts dispatched to burial facilities due to creation of optimal, reasonable from the technical-and-economic point of view, chain of complexes for treatment thereof, preliminary preparation for further recycling, including sorting, dismantling, cleaning, and disposal. Comprehensive assessment and subsequent reasonable selection of optimal scientific methods of research of factors, indicators and restrictions that form the constituent elements of methodology of creation of the economic and managerial model of the complex system of waste treatment, will be continued.
- modeling and control of construction materials waste streams;
- processing and recycling of waste;
- secondary use;
- environmental safety;
- complex system of construction waste treatment;
- environmental protection;
- rational use of natural resources;
- resource saving;
- methodology;
- construction waste;
- economic efficiency;
DOI: 10.22227/1997-0935.2017.1.83-93