The methodology of numerical experiment of laying with closed method by methods of horizontal-directional drilling, brown-screw drilling, forcing, microtonneling has been developed. Some features of the construction of cases for penetration by collectors under existing highways, including general information about the used materials of the cases, are given. A selection of controlled factors and experiment planning, system stability check, results reliability analysis was performed.
Keywords: collector, numerical experiment methodology, microtonneling, horizontal directional drilling, brown-screw drilling, puncture, forcing, motorway, case, reinforced concrete, metal pipes
The results of the development of a sensory subsystem of an ophthalmopneumatic gas tonometer designed to measure intraocular pressure, study the anterior ciliary arteries and measure indicators are presented. After identifying the design features of the device, a structural diagram, an electrical diagram of the subsystem was proposed, a three-dimensional model of the device was made, and the technical characteristics of individual elements were considered. Brief conclusions on the work done are given, as well as the prospects for the development of the project.
Keywords: ophthalmopneumovasotonometer, intraocular pressure, pneumatic system, sensors, range finders, video cameras
The article presents the results of the development of the executive subsystem of a combined medical measuring device - an ophthalmopneumonasotonometer, with the help of which it is possible to measure intraocular pressure and the characteristics of the pressure pulse in the anterior ciliary arteries of the eye. Based on the results of the analysis of the subject area, the author proposed a structural and electrical diagram of the executive subsystem of the device, considered technical solutions of its individual elements.
Keywords: ophthalmopneumovasotonometer, intraocular pressure, executive subsystem, anterior ciliary arteries
The article considers the geological features of the Karasan landslide. The result of mathematical simulation of landslide motion in time is also presented.
Keywords: landslide, landslide slope, mathematical modeling, geomechanical modeling, finite element method, Karasan landslide, anti-landslide protection
The article discusses the impact of emissions into the atmosphere, formed as a result of combustion of associated petroleum gas, on the chemical composition of settled dust near the gas torch. The paper presents full-scale studies of the emissions of a torch operating near a settlement, the chemical composition of particles in the obtained samples of settled dust is studied. In the course of the work, the results obtained were compared with research data obtained for areas where there is no flare combustion. As a result of this comparison, it was concluded that flare emissions have a significant impact on the chemical composition of settled dust in the vicinity of existing flare systems.
Keywords: soot, flare emissions, air pollution, black carbon, settled dust
The results of the development of a set of indicators for the quality of construction products on the example of a reinforced concrete pile are presented. The analysis of the requirements of regulatory documentation for the evaluation of aesthetic indicators of the product is carried out. A solution to the dispute between the Supplier and the Customer on the issue of assessing the quality of the concrete surface is proposed.
Keywords: quality management, improving competitiveness, consumer requirements, quality indicators, technical level, aesthetic indicators, construction
The paper provides an overview of the applications in central heating points (CHP) of technologies and equipment to improve energy efficiency and quality of heat supply from district heating systems. The main equipment and characteristics of the hot water supply system taken as an example of the central heating station "MGU" are given. Described is the method of choosing the heating circuit of the central heating station from the ratio of the maximum loads of hot water supply and heating. For the adopted example of a central heating station, based on the above characteristics, the main indicator of energy efficiency is the specific consumption of electrical energy for the transport of thermal energy. Factors that have the greatest impact on this indicator: coefficient of uneven consumption of "hot water"; quality of regulation of hot water supplied to the hot water supply network; precise control of the productivity of the boosting and circulation pumping stations. The standard total power of the pump drives has been determined to be 13.58 kW and the range of actual power is from 10.79 kW to 22.04 kW.To reduce the influence of factors in the control scheme, it is proposed to use flow (pressure) regulators to maintain a constant direct-acting pressure drop. Use the pressure (pressure difference) of hot water discharged to the DHW system and returned from the system as balancing forces for this regulator. The parameters of hot water of rational modes of operation of the hot water supply system from the central heating station "MGU" were determined: temperature of hot water at the outlet of the heat exchange equipment 75 ° С; hot water pressure at the outlet of the heat exchange equipment 45 m; hot water pressure at the inlet of the circulation pump 25 m. The implementation of the proposed option without the inertial control scheme for the temperature of "hot water" and the developed rational modes of operation of the hot water supply system, according to the assessment of efficiency indicators, will reduce the specific consumption of electrical energy in the central heating station by 28.4% from 0.631 kW * h / m3 to 0.452 kW * h / m3.
Keywords: central heating station, hydraulic mode, flow regulator, pump characteristic
In the oil industry, autonomous electric power sources containing renewable energy sources are used to power remote consumers with an occasional load, mainly valve assemblies on pipelines. The need for electric energy sources of this type is determined by the need to install valve assemblies at pipeline intersections with water barriers, at intersections with transport arteries, and in a number of other cases. Very often in such places there are no available power lines or substations. In this case, the only alternative is the use of autonomous sources, or the expensive construction of an extended overhead line. In some cases, the developer decides to abandon the overhead line due to its high cost and the need for additional land acquisition. From the point of view of ecology, such a decision in favor of autonomous sources of electric energy also has an additional positive effect. Since the installation of valve assemblies is dictated mainly by environmental considerations, high requirements are placed on the reliability of power supply. Violation of these conditions can lead to hydraulic shocks in the system and possible destruction and breakage of system elements. A wind turbine or solar panels are undoubtedly an independent source of power supply and, when paired with batteries or a diesel generator set, can formally provide high reliability of power supply. On the other hand, there are periods of time when the power of a wind turbine or solar battery is insufficient to supply a given load. As a consequence, the decision on the reliability of power supply should be made on the basis of additional studies of the static and dynamic stability of the entire electrical power generation complex.
Keywords: renewable energy sources, valve assembly on pipelines, ecology, static stability, dynamic stability
In this article, the authors present the prospects and methods of countering illegal construction on the example of the work of one of the departments of state control and supervisory activities. Shows the statistics on the number of detected violations in the field of control and supervision activities for the period 2018-2019 in the number of detected illegal buildings and the prospects of mitigating these offences on the example of one of the divisions of the state construction supervision. The list of measures for the elimination of illegal buildings, as well as the list of grounds for these inspections, is presented. In the article, the authors present conclusions on the results of the activities of the State Construction Supervision division, taking into account the changes made to the Civil Code of the Russian Federation.
Keywords: technical supervision, construction control, control and supervisory activities, construction production technology, construction organization, unauthorized construction, illegal construction
Solid particles (PM) contaminate the filter surfaces and enter the pores, as well as settle on the surfaces of catalysts and deactivate them. Therefore, this article discusses the filter system and the cleaning system. The paper describes the requirements for what they should contain and provide, what properties and parameters the filter material should have, as well as catalytic converters that contribute to an increased level of cleaning. It is also shown that the system that filters exhaust gases must be resistant to vibrations of up to 150 Hz at an acceleration of up to 4 g. The filter system and cleaning system must be equipped with devices that ensure the regeneration of catalysts at the site of dismantling. The purification system must ensure that the emissions of the following harmful substances are reduced.
Keywords: solid particle, filter system, purification system, catalytic Converter, oxide, external environment, diesel engine
The article deals with some of the most common waste from the construction industry. These are waste generated as a result of the construction of buildings and structures, concrete scrap. At the moment in Moscow in 2018, a programme of renovation, demolition of old housing, which estimates the amount of concrete scrap will amount to more than 14 million m3. The most effective way of recycling is using waste concrete scrap including eliminations of crushing in the manufacture of concrete. The problems of processing concrete scrap associated with the accumulation of a large number of screenings of concrete scrap, which is actually not used anywhere, are considered. Their number increases very much every year. As a result of the study, the chemical and mineralogical composition of ground concrete scrap was determined, as well as the grinding was performed up to Sud = 500 m2/kg. The possibility of using these ground wastes of concrete scrap (MOBL) as an active mineral additive (AMA) for the production of cement-sand solutions is considered. Due to the significant content of silica in these wastes in crystalline and amorphous form, these wastes can be classified as silica-containing. The kinetics of hardening of cement-sand solutions using active mineral additive was studied, histograms were constructed and conclusions were formulated.
Keywords: waste, construction industry, renovation, old place, concrete scrap, recycling, active mineral additive, mineralogical composition, cement-sand mortar, kinetics of hardening
Piezoceramics based on the lead zirconate-titanate (PZT) system is the basis of most transducers operating on the piezoelectric effect and are used in various electronic devices operating in the sections of electrical and hydroacoustics, ultrasonic technology, etc. In turn, piezoceramic materials created in the last century have substantially exhausted their potential for use in modern devices, and it is rather difficult to develop new compositions and is not economically efficient. In connection with the above, an urgent task is to find modern ways to increase the parameters of piezoceramic materials.
Keywords: piezoceramics, piezophase, piezomaterial, ceramic technology, microstructure
The main process of stratum fluid extraction in Russia is mechanized lifting. It is observed that the stock of wells equipped with electric centrifugal pumps units has grown by 50% over the past 10 years, to almost 100,000 units. Growth detected in the average time between overhauls of the oil-well stock during this period increased by 50%, to almost 800 days. Mathematical modeling becomes a tool for further improving energy efficiency and reliability. The purposes of this work is to analyze existing models of submersible electric motors and their area of operations, identify existing shortcomings and limitations, and formulate requirements for the refined model and its application potential. The results of a thermоvisional inspecting of the rotor of a submersible electric motor after long-term operation in idle mode are presented. The temperature dispersion of the rotor packages is recorded from 36.68 °C to 46.67 °C. Different packages temperatures lead to uneven changes in the active resistances of the windings, which affect the contribution of each package to the integral operating and Electromechanical characteristics of the submersible motor. For taking into account the detected effect, it is proposed to model a submersible asynchronous electric motor as an electrotechnical complex consisting of an interacting and mutually influencing set of elementary electric machines. Spatial and mathematical models are presented that take into account temperature fluctuations in individual parts of the electric motor. The results of verification of the mathematical model are presented. Its validity in the field of applicability is shown.
Keywords: electric submersible motor, ESP, rotor pack, mathematical model, thermal processes
The results of simulation of stabilization of landslide slope by method of finite elements are considered in the article. The slope stabilization system includes retaining reinforced concrete structures (newly erected and reconstructed) with an anchor support of the TITAN system.
Keywords: landslide, landslide slope, landslide circus, retaining structures, anchor support, anchor, mathematical modeling, geomechanical modeling, finite element method
During the modernization of the cement plant and the transition to a new technology for the pro-duction of cement, the design of the divider for the flow of bulk materials was set as one of the tasks. In the future, with the successful implementation of the project, this would make it possible to use a common raw material warehouse that feeds two clinker kilns. The compiled mathematical model of the raw material flow divider made it possible to simulate transient processes in the op-eration of the mechanism. The created program and visualization of the process simplifies the work of the personnel operating the installation.
Keywords: automation, operation, divider, modernization, cement industry