Analysis of the Use of a Wind Turbine as an Energy Recovery Device in Transport Systems

Rubio, Francisco; Llopis-Albert, Carlos

doi:10.3390/math9182265

Cited by 8 publications

(3 citation statements)

References 6 publications

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“…This percentage is referred to as the utilisation factor, and it equals the area of the wind turbine that can be utilised relative to the total frontal area of the vehicle multiplied by the Betz Limit of the wind turbine. [40][41][42] The area of three MWT is 0.145 m 2 and the frontal area of the EV is about 2.5 m 2 . Using 0.4 as the Betz limit of the MWT, the utilisation factor is 0.022, which can be rounded to 0.02 (20%).…”

Section: Methodsmentioning

confidence: 99%

Feasibility studies of micro wind turbines installed on electric vehicles as range extenders using real-time analytical simulation with multi driving cycles scenarios

Ebaid

Shahin

Alshawabkeh

2023

Advances in Mechanical Engineering

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The proposed work aims to generate electricity by utilising the air flowing around the vehicle through the micro wind turbines (MWTs). In this case, the electricity produced can be used to charge up the battery or power up additional vehicle accessories, which increases the efficiency or/and range of the vehicle. Three driving cycles have been conducted to examine the model’s performance in moderate, highly dynamic and highway driving scenarios. The analytical works resulted in an 8.38%, 4.6% and 1.01% efficiency increase for the case of the Highway driving cycle (FTP), the new European driving cycle (NEDC) and the standardisation random test aggressive driving cycle (RTS), respectively when adding the micro wind turbines model. In terms of range analysis, 16, 11 and 2 km of the range were added to the full battery charge range of the vehicle when the vehicle was simulated for the case FTP, NEDC and RTS driving cycles scenarios, respectively. The results conclude that the value of micro wind turbines is shimming with highway driving scenarios where the effect of regenerative braking is absent and the drag force acting on the vehicle is at its highest rate.

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Section: Methodsmentioning

confidence: 99%

Feasibility studies of micro wind turbines installed on electric vehicles as range extenders using real-time analytical simulation with multi driving cycles scenarios

Ebaid

Shahin

Alshawabkeh

2023

Advances in Mechanical Engineering

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“…Wind energy's fexibility ofers an alternative to reduce fossil fuel dependency [22]. Researchers have explored innovative concepts, such as harnessing wind energy from unconventional sources, to generate sustainable electricity [23]. Studies have also demonstrated the feasibility of using horizontal-axis wind microturbines in transport systems, recovering energy while vehicles are in motion [23].…”

Section: Introductionmentioning

confidence: 99%

“…Researchers have explored innovative concepts, such as harnessing wind energy from unconventional sources, to generate sustainable electricity [23]. Studies have also demonstrated the feasibility of using horizontal-axis wind microturbines in transport systems, recovering energy while vehicles are in motion [23]. In addition, researchers have proposed an assessment method to determine wind energy potential based on wind speed, direction, and power data [24].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Wind Energy Recovery from an Underground Mine Exhaust Ventilation System

Yeboah,

Ackor,

Abrowah

2023

Journal of Engineering

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Wind energy is a reliable renewable source of energy with significant technological advancements. However, recovering wind energy from waste and predictable sources remains untapped. Certain industrial activities emit pollutants while generating wind energy, presenting opportunities for cleaner energy utilization. This study investigates wind energy recovery from an underground mine’s exhaust through experimental research and analysis. It revealed a drop in wind velocity at −2.5162 Hz frequency as distance increased. This frequency predicted a wind speed of 7.67 m/s at 1 m from the exhaust fan in a real mine. Theoretical calculations show significant wind energy potential of 1031.31 kWh over 13 hours, which is equivalent to 79.3 kW. Realistic estimates suggest 55.51 kW wind power can be recovered, yielding 721.63 kWh. Compared with previous studies in the mining industry, recovery potential varies based on site-specific factors. The study shows a recoverable power percentage of 28% theoretically and up to 19.8% realistically, highlighting wind energy’s potential in underground mining. Moreover, the wind energy significantly contributes to the lighting system, enhancing energy efficiency. To optimize recovery, the ventilator fan system is upgraded, multiple fans are used, and optimizing the design is recommended. The study emphasizes continuous research and real-world implementations for energy savings. Utilizing wind energy effectively improves sustainability and reduces reliance on conventional sources, promoting a greener future for mining.

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Multiobjective optimization framework for designing a vehicle suspension system. A comparison of optimization algorithms

Llopis-Albert

Rubio

Zeng

2023

Advances in Engineering Software

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Analysis of the Use of a Wind Turbine as an Energy Recovery Device in Transport Systems

Cited by 8 publications

References 6 publications

Feasibility studies of micro wind turbines installed on electric vehicles as range extenders using real-time analytical simulation with multi driving cycles scenarios

Feasibility studies of micro wind turbines installed on electric vehicles as range extenders using real-time analytical simulation with multi driving cycles scenarios

Evaluation of Wind Energy Recovery from an Underground Mine Exhaust Ventilation System

Multiobjective optimization framework for designing a vehicle suspension system. A comparison of optimization algorithms

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