"Вестник МГСУ"

Subject: the effectiveness of using compositions with the use of basalt fibers is proven, but the composition must be selected depending on the binder and additives chosen. Research objectives: we examine the possibility of waste recycling of basalt fiber production during manufacturing of modified gypsum composite material with improved characteristics. Materials and methods: as a raw material, a gypsum binder of Samara production was used. As a reinforcement additive, a disperse waste of basalt fiber production of Tver region was used. Studying characteristics of the gypsum binder and modified mixture, and also comparative analysis of these characteristics by average density, total porosity, strength in compression and flexure of the gypsum composite were carried out using standard techniques. Results: dependence of physical and mechanical properties of the modified gypsum material on the content of the basalt fiber additive is established. It was found that an increase in concentration of the additive requires an increased water content or additional use of plasticizer. Conclusions: modification of gypsum stone with a mineral basalt additive will increase the strength, density and durability of thin-walled gypsum products, and, consequently, the demand for products due to ensuring their high quality in transportation and installation.

The relevance of the problem of construction waste management has proven to be true, as the statistical data reflect an increase in the amount of construction and demolition works in the Russian Federation. The authors analyze the current standards, regulatory documents and requirements applicable to construction waste processing. One of the most important challenges is a need to develop production schedules (PSs) applicable to the processes of management of construction and demolition waste. The process of coordination of PSs, their structure and contents is considered in the article in detail. There is a need for universal construction waste management software programmes. Development of these software programmes can promote essential results in projecting, modeling and research of the properties of waste management processes.

The nature is subject to severe antropogenous impacts and dramatically changes its quality. Urban development is a process of environmental intervention, a process of its artificial change in such a speed, which doesn’t correspons to the speed of biospheric evolutions and natural selection. By improving our life quality, a human destroys the usual interrelation of living organisms with natural environment. The concepts of urban development and suburbanization of territories existing nowadays have their advantages and disadvantages from ecological point of view. The paper considers the reasons and major problems of ecological reconstruction of the urban space. Preconditions of the integrated ecological approach to the town evolution are shown in the work, as well as some generalizing conclusions concerning security assurance of the environment of the city of Volgograd. The priority trend for the urban areas suburbanization is presented.

Foamed glass is one of the most energy efficient construction materials. However, the existing technologies of foamed glass manufacture do not correspond to the principles of green construction because a special sulphate glass is used, produced from natural raw materials, and it causes emission of pollutants at all stages of the life cycle of the material. The resource and energy-saving technology for producing environmentally safe energy-efficient foam glass based on off-grade glass cullet, which is a component of solid municipal waste, has been developed, substantiated and implemented. In solving a particular problem of foam glass production, an algorithm of development of an environmentally safe building material based on or with addition of production and consumption wastes was proposed and approved. This algorithm is consistent with the principles of green construction. Subject: development of the technological scheme of manufacture and recycling of energy efficient cellular material corresponding to the requirements of ecological safety at all stages of its life cycle; proposition of an algorithm that solves the general problem of development of environmentally friendly construction materials and conforms to the principles of green construction. Materials and methods: analysis of existing technical solutions for manufacture and recycling of foam glass from the viewpoint of green construction principles and proposition of alternative environmentally friendly solutions. Results: as a result of elimination of the drawbacks inherent in the existing foam glass at all stages of its life cycle, technical solutions that ensure environmental safety of the material were substantiated. Conclusions: the results can be used for development of construction materials corresponding to the principles of green construction.

Despite the widespread use of the logistic approach in many areas of human activities, analysis of references concerning its prospects causes the author to conclude that the prospects for the employment of the principles of logistics aimed at the improvement of efficiency of operation of the system of treatment of construction and demolition waste fails to enjoy sufficient consideration. Logistiсs-based management of streams of construction waste triggers production of raw materials, increases the output amount, reduces initial costs and prevents environmental pollution. The methodology of logistics makes it possible to optimize complex systems. Intensive development of the concept of an integrated system of waste control is boosted by the prospects for the application of secondary resources. In the article, expediency of introduction of principles of logistics into the theory and practice of construction waste management is proven. Substantial technological, economic and ecological effects of integration of the 3R (reduce, reuse, recycle) concept of construction waste management with logistic methods are considered.

The process of manufacturing of various construction products is accompanied by the generation of huge amounts of versatile wastes. Application of construction waste in further production processes is possible in the aftermath of its pre-processing or even without it. Construction waste recycling can generate high revenues. The pattern of waste generation and further logistic flows of waste generated in the process of construction and demolition are presented in article. The analysis of the market of secondary, or recycled, construction products has revealed weaknesses of its operation. The proper choice of effective technologies for the treatment of building waste may turn into the basis for successful economic development of the construction industry in the Russian regions. The backwardness of the market of secondary resources misbalances supply and demand for market products. In this article, the pattern for development of logistics-based models of intensive development of the market of secondary construction resources is proposed. Application of this logistics-based approach will generate economic benefits and prevent environmental pollution.

Today no effective centralized control system is available for building waste. However, it may be generated through the establishment of special-purpose logistics centers. Logistics centers will be designated for the regulation of processes of building waste handling. Depending on the status of development of building waste control systems in specific regions, logistics centers of one of the following two types are to be installed: multi-component logistics centers or information logistics centers. The objective is to develop a mechanism for generation and transfer of information streams in order to compile an effective model of waste management for construction and demolition works. The mechanism is to involve each participant of waste-related processes. If this mechanism is in place, waste transportation and amount/composition analysis will be streamlined to assure timely information delivery to/from construction organizations, transport companies, waste processing enterprises, and consumers of secondary products. In the article, the mechanism of effective region-wide management of construction waste is proposed depending on the status of development of waste processing facilities in different areas (regions, etc.). Patterns of interaction between the parties involved in this process are also analyzed.