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July 16, 2023
2 min read
Case studies

Solar-powered micromobility, a key to sustainable urban transportation


Key issues discussed in the following article:

  • The trade-off caused by micromobility restrictions, and their impact on road congestion and transportation efficiency;
  • The transformative potential of solar chargers in micromobility, promoting sustainable urban mobility and reducing emissions.
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In the world of micromobility, comprising mainly electric scooters and bikes solar chargers appear to be the next evolutionary step for the sector. This dynamic market has the potential to revolutionize urban mobility by providing ecological and economic alternatives for short-distance traditional transportation.

These innovations align with the global trend towards electromobility, with forecasts predicting the micromobility market to reach a value of 300 billion dollars by 2030. By harnessing solar energy, solar chargers like our jCharge have the potential to significantly reduce greenhouse gas emissions by promoting alternative means of transport within the city.

Despite the potential of micromobility to transform urban traffic, its impact on road congestion and travel efficiency is a matter of debate. Various cities around the world have introduced regulations on micromobility devices, primarily over public safety concerns and the urban chaos caused by electric scooters. However, the impact of these regulations on traffic congestion and transportation efficiency raises an important question: Is banning electromobility truly worth it?

Micromobility ban trade-off

A study conducted in Atlanta, one of the most urbanized regions of the US, revealed that the implementation of a micromobility ban led to an average increase in travel times ranging from 9-11%, and during significant events, the increase reached as high as 37%. These results point to a significant trade-off between safety objectives and the potential rise in emissions associated with increased street congestion.

When micromobility options are restricted, many individuals resort to private cars, leading to heightened congestion and longer travel durations. While some users may opt for greener modes of transportation, such as walking or public transit, the prevailing trend leans towards a return to fossil fuel-based vehicles.

These findings emphasize the importance for cities to carefully consider the implementation of micromobility restrictions, including the unintended effects on congestion.


Promoting sustainable urban mobility

In summary, micromobility restrictions have a significant impact on road congestion and transportation efficiency. When micromobility options are unavailable, users tend to rely on cars, resulting in traffic jams. Thus, striking a balance between safety concerns, the urban chaos and potential economic costs associated with congestion is essential for promoting sustainable urban mobility. By investing in infrastructure, like solar chargers, and making informed decisions based on data, cities can harness the full benefits of micromobility as an efficient and environmentally friendly alternative to traditional car transportation.

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