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ઓગસ્ટ
ઓગસ્ટ
આજની ઝડપથી વિકસતી પરિવહન લેન્ડસ્કેપમાં, ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs have emerged as a highly popular and promising option. There are numerous reasons behind their growing popularity, ranging from cost savings and environmental benefits to technological advancements and practical considerations. Let’s explore in detail “Why are ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs so popular?”
Reasons for the popularity of electric logistics vehicles:
(1) Meeting the need for improved last-mile transportation:
Pure ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs have found a solid entry point in the market. હાલમાં, the overall urban logistics market in our country is largely mature. તેમ છતાં, the transportation for the last kilometer has been dominated by various means such as motorcycles, electric tricycles, electric bicycles, and old cross-passenger vehicles. While these modes of transportation have been serving a certain purpose, their road operation cannot meet the evolving development needs of society and enterprises from multiple perspectives.
From a public safety standpoint, some of these traditional last-mile transportation options may lack proper safety features, increasing the risk of accidents. ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ, બીજી બાજુ, are designed with safety in mind, with features such as stable braking systems and reinforced structures.
In terms of energy consumption, traditional vehicles used for last-mile delivery often rely on fossil fuels, which are not only expensive but also contribute to environmental pollution. ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ, powered by electricity, are more energy-efficient and have a lower carbon footprint.
From an environmental perspective, the use of ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs helps reduce air pollution and greenhouse gas emissions. As cities around the world are becoming more conscious of environmental issues, the adoption of electric vehicles for logistics is seen as a step in the right direction.
તદુપરાંત, from the perspective of enterprise image and efficiency, companies that use ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs can project a more environmentally friendly and forward-thinking image. This can enhance their brand reputation and attract customers who are also concerned about sustainability. વધારામાં, ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs can offer better operational efficiency due to their quiet operation, lower maintenance costs, and the ability to access certain areas restricted to traditional fuel-powered vehicles.
ઉદાહરણ તરીકે, in a busy urban area, an e-commerce company that uses ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs for last-mile delivery can not only reduce its environmental impact but also improve its delivery times by avoiding traffic congestion and accessing narrow streets and alleys more easily.
(2) Ideal for urban express delivery and last-mile logistics:
હાલમાં, pure ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs have a relatively short cruising range, which may seem like a limitation. તેમ છતાં, this characteristic actually makes them well-suited for urban express delivery tasks. Specifically, these vehicles can meet the requirements of urban express delivery, where goods are delivered during the day and the vehicles can return to the base for charging at night.
They are not designed for long-distance operation between cities. Logistics enterprises typically use this category of models for secondary express delivery and last-mile logistics distribution. The main models are special vehicles for short-distance transportation and MPV or light passenger vehicle models.
For urban logistics operations, the shorter range of ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs is not a major drawback. The typical daily delivery routes within a city are relatively short, and the vehicles can easily return to the charging station at the end of the day. This allows for efficient and cost-effective operations without the need for frequent refueling stops.
Imagine a courier company operating in a large city. By using ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ, they can complete multiple delivery rounds within the city limits without worrying about running out of power. At night, the vehicles can be charged at the company’s depot, ready for the next day’s deliveries.
(3) Abundant basic vehicle resources and versatility:
There are abundant basic vehicle resources available for converting traditional cars into pure ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ. This conversion process not only allows for the utilization of existing vehicle platforms but also offers several advantages.
Converted ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs can serve both as people carriers and for transporting goods. Their versatility makes them suitable for a wide range of applications. વધારામાં, they can be modified into special vehicles with a wide range of uses, depending on the specific needs of different industries.
ઉદાહરણ તરીકે, a traditional fuel small truck (MPV or light passenger vehicle) can be converted into an ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહન for short-distance transportation. These vehicles can be used for tasks such as delivering parcels, transporting groceries, or even as mobile workshops for certain services.
તદુપરાંત, converting traditional cars into pure electric vehicles currently has little impact on the original market. This means that the existing infrastructure and supply chains for traditional vehicles can be leveraged to support the growth of ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ.
(4) Mature technology and continuous improvement:
The technology of pure ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs is basically mature. હાલમાં, ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs are all pure electric vehicles without transitional products such as hybrids and extended-range (plug-in) વાહનો. The three core (battery, મોટર, and electronic control) component technologies of such vehicles are well-developed and have been tested and refined over time.
Although the quantity of ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs on the market has not yet reached the same scale as traditional fuel-powered vehicles, their cost is relatively high. તેમ છતાં, as technology continues to advance and economies of scale are achieved, the cost of ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs is expected to decrease.
ઉદાહરણ તરીકે, improvements in battery technology are leading to longer ranges and shorter charging times, making ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs even more attractive for businesses. વધારામાં, advancements in motor and electronic control systems are enhancing the performance and reliability of these vehicles.
(5) Utilization of existing marketing networks:
The pure electric (logistics) vehicle marketing network does not need to be newly built. Instead, these vehicles can use the existing marketing networks established for traditional vehicles. This is a significant advantage as it reduces the time and cost required to bring ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs to the market.
હાલમાં, a total of 218 ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs of 62 brands are included in the catalog. In many cases, the basic model is a traditional model that has been modified to incorporate electric powertrains. What is changed is the “three electrics” part (battery, મોટર, and electronic control), and what is changed is the manufacturer’s brand.
This approach allows for a seamless transition for consumers and businesses who are already familiar with traditional vehicle brands and marketing channels. It also enables manufacturers to leverage their existing infrastructure and expertise to promote and sell ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ.
(6) Less dependence on extensive charging infrastructure:
Pure ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs do not highly depend on extensive charging facilities, which is another factor contributing to their popularity. The continuous mileage per charge is about 180 કિલોમીટર, which is sufficient for most urban logistics operations.
The on-board charger is an AC charging interface of 220V, which makes it convenient to charge the vehicles at various locations. The power consumption is relatively low, with a distribution of about 45 degrees.
This means that businesses can charge their ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs at their own depots, parking lots, or even at public charging stations if available. The flexibility in charging options reduces the barriers to entry for businesses considering the adoption of electric vehicles.
ઉદાહરણ તરીકે, a small logistics company can install a few charging points at its warehouse and easily manage the charging of its fleet of ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ. This eliminates the need for a large-scale dedicated charging infrastructure and reduces the initial investment.
સમાપન માં, ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs are popular for a variety of reasons. Their ability to meet the needs of last-mile transportation, suitability for urban express delivery, abundance of basic vehicle resources, mature technology, utilization of existing marketing networks, and less dependence on extensive charging infrastructure all contribute to their growing popularity. As the world continues to move towards more sustainable transportation solutions, ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનs are likely to play an increasingly important role in the future of logistics and transportation. જો તમને વિશે કોઈ પ્રશ્નો હોય ઇલેક્ટ્રિક લોજિસ્ટિક્સ વાહનઓ, કોઈપણ સમયે અમારો સંપર્ક કરવા માટે મફત લાગે.