Energy-Efficiency of Conveyor Belts in Raw Materials Industry

Dear Colleagues,

Belt conveyors are presently the most common transportation machines used in surface and underground mining. Apart from mining industry, belt conveyors are also used in cement and chemical industries, and in power plants and ports. Conveyor belt transportation technology used in the global mining industry has undergone constant development. The advances are most clearly visible in long-distance belt conveyor designs. The two most important areas for belt conveyor development are first and foremost improving belt conveyor efficiency and extending the length of a single conveyor, which entails increasing the power of the drive mechanisms. High-power conveyors need considerable amounts of electric energy, and consequently, due to global increase in energy prices, they generate increased transportation costs. In recent years, very intensive research has been performed on lowering the energy consumption of belt conveyor drive mechanisms. Extensive theoretical and experimental research has demonstrated the potential for energy savings in the individual components of belt conveyors, such as belts, idlers, gearboxes, couplings, drive systems, belt tensioning systems, etc. The identification of main resistance in belt conveyors is an example of one such research approach. The research proved that the feasibility of limiting electric energy consumption is linked to belt properties. Estimations suggest that implementing improved energy-saving belts with adequate parameters of rubber cover will allow a significant decrease of conveyor primary resistance, which will result in decreased electric energy consumption by conveyor drive mechanisms.

Analysis of belt transportation systems in Polish brown coal mines shows the scale of the problem. The “Belchatow” lignite mine, which extracts above 4 × 10⁷ Mg of coal and more than 1 × 10⁸ m³ of overlay per year, may be a good example here. The transportation of materials in the Belchatow mine is performed with the use of belt conveyors having a total length of more than 160 km and accounts for approximately 50% of its electric energy consumption. This fact demonstrates both the economic and ecological importance of technologically optimizing belt conveyors in order to lower the energy consumption of drive mechanisms.

The proposed topics for this Special Issue of Energies include the following research areas:

1. Energy-saving solutions in belt conveyor transportation—modeling of the operating conditions and dimensioning of conveyors, monitoring the condition of conveyor components, predictive diagnostics.
2. New energy-saving solutions with respect to conveyor components, especially their drive systems, gearboxes, couplings, idlers, as well as devices for controlling and monitoring their operation.
3. Calculations of belt conveyor parameters and of energy savings due to conveyor speed adjustments, more efficient use of the transportation capacity, and optimal selection of conveyors for particular tasks.
4. Applications of environmentally friendly and economically justified design solutions aimed at improving the energy efficiency of belt conveyors and limiting their noise impact.
5. Optimizing the operation-related processes in belt conveyors (evaluation of the energy consumption, durability, and reliability of conveyor transportation systems).
6. Methods for the evaluation and measurement of both the quality of conveyors and their behavior during the starting process.
7. Experiments regarding laboratory and in-service tests of belt conveyors and their components, such as belts, idlers, drives, and gearboxes—new measurement and result-processing technologies.
8. The use of belt conveyors related to the monitoring of their condition, damage analysis, computer-aided management, as well as the identification of the properties of both belts and their splices.

Prof. Daniela Marasová
Prof. Monika Hardygora
Dr. Mirosław Bajda
Guest Editors

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• Energy-saving conveyors； Belt conveyor 4.0； Energy-saving belts； Monitoring the condition of main components in the conveyor； Predictive diagnostics； Laboratory and in-service tests of conveyor components； DEM numerical modeling； Noise emissions