Hybrid Energy Storage for Underground Mining EV

Townsend, Ashleigh; Jiya, Immanuel N.; Gouws, Rupert

doi:10.1109/iemtronics52119.2021.9422652

Cited by 1 publication

(1 citation statement)

References 20 publications

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“…There are also mobile robots that also move in other environments in the air -UAVs (Unmanned Aerial Vehicles) or in the water environment AUV Autonomous Underwater Vehicles). The issues of drive sources of UAV are presented in a number of articles [96][97][98][99][100][101][102][103][104]. Due to the environment's need to overcome the force of gravity, these robots have special power requirements.…”

Section: Limitatons Of Previous Studiesmentioning

confidence: 99%

Materials for Batteries of Mobile Robot Power Systems: A Systematic Review and Comparison of Efficiency

Mikołajczyk¹,

Mikołajewski²,

Kłodowski³

et al. 2023

Preprint

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Mobile robots can perform tasks on the move, including exploring terrain, discovering landmark features or moving a load from one place to another. This group of robots is characterized by a certain level of intelligence allowing making decisions and responding to stimuli received from the environment. As part of Industry 5.0, such mobile robots and humans are expected to co-exist and work together in a shared environment to make human work less tiring, quicker, and safer. This can only be realized when clean, dense, and economical energy sources are available. The aim of the study is to analyze the state of the art and to identify the most important directions for future developments in robotic power systems based mainly on batteries. The efficiency and performance of the battery depends on the design using different materials. Work environments and performance requirements are considered in this systematic review to classify solutions that help developers choose the best suited power system for specific application. Indirectly, the aim of the work is to generate discussion within the scientific and engineering community. A narrative review of publications from six major bibliographic databases according to preset inclusion criteria was combined with a critical analysis of current and future technologies. The main findings of the review allow answering question what is the role of modern power source technologies, artificial intelligence and ground-breaking research work in global policies related to energy saving, green policies, and sustainable development. The main opportunities and threats are discussed, and a brief feasibility analysis is carried out. Novelty of the article relates not only to the analysis of technologies, but also to approaches and their use under conditions of limited resource availability, when resource usage must be minimized. The article provides an overview of batteries, their specifications, classifications, and their advantages and disadvantages. In addition, we propose: (1) an algorithm for selecting main energy source for robot application, and (2) an algorithm for selecting electrical system power supply. Current mobile robot batteries are, in most cases, their biggest limitation. Progress in batteries development is too slow to catch up with the demand for robot autonomy and range requirements, limiting the development of mobile robots. Further intensive research and implementation work is needed to avoid years of delay in this area.

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