High reliability storage systems for genset cranking

“…That is, within 10 s, the rotor (artificially) remains stationary. From this experiment, we find at which current, according to (4,5), the moments are equalized and we obtain the start time of the starter rotor movement. For greater obviousness, the time axis is given by an uneven scale since, starting from 1.5 to 10 s, the process proceeds relatively smoothly.…”

“…That is likely due to the complexity of selecting the parameters for existing supercapacitors, starters, and rechargeable batteries. The results of studying the system of guaranteed power supply with various power drives are reported in [4]. In particular, the authors investigated an option to start a diesel generator only from the supercapacitor.…”

Establishing patterns in the compatible electromagnetic and electromechanical transition processes when the starter is powered by a supercapacitor

“…That is, within 10 s, the rotor (artificially) remains stationary. From this experiment, we find at which current, according to (4,5), the moments are equalized and we obtain the start time of the starter rotor movement. For greater obviousness, the time axis is given by an uneven scale since, starting from 1.5 to 10 s, the process proceeds relatively smoothly.…”

“…That is likely due to the complexity of selecting the parameters for existing supercapacitors, starters, and rechargeable batteries. The results of studying the system of guaranteed power supply with various power drives are reported in [4]. In particular, the authors investigated an option to start a diesel generator only from the supercapacitor.…”

Establishing patterns in the compatible electromagnetic and electromechanical transition processes when the starter is powered by a supercapacitor

“…The railway system model was implemented in a rail simulator based on the 'quasi static' backwards looking method, due to its short simulation times for estimating energy consumption of vehicles following an imposed speed cycle [46]. The rail simulator is a multi-stage program, implemented in Visual Basic and Fortran language and operating in MS-DOS and the Microsoft Excel workspace [59][60][61], including:…”

Modeling and Simulation of Electricity Systems for Transport and Energy Storage

“…The railway system model was implemented in a rail simulator based on the 'quasi static' backwards looking method, due to its short simulation times for estimating energy consumption of vehicles following an imposed speed cycle [46]. The rail simulator is a multi-stage program, implemented in Visual Basic and Fortran language and operating in MS-DOS and the Microsoft Excel workspace [59][60][61], including:…”

“…The train performance, computed in the Microsoft Excel environment, requires the main characteristics of the route as input data, namely the plano-altimetric characteristics of the line (slopes), the curvature radius of the curves, speed limits and tunnels. Moreover, it requires electromechanical information of the rolling stock such as: weight, aerodynamic resistance, traction and braking force [46,59]. Given these inputs, and with a calculation step in meters, it is possible to obtain several outputs such as:…”

A Preliminary Techno-Economic Comparison between DC Electrification and Trains with On-Board Energy Storage Systems