By analysing the data, we have selected a group of 40 vehicles that are worth replacing with electric vehicles.
From a pool of 150 vehicles, we identified 40 prime candidates for electrification.
27 out of 40 vehicles demonstrated a TCO advantage, being 1% to 21% cheaper than their diesel counterparts.
Eight vehicles have the same TCO as those currently used in the fleet.
Replacing 5 specific vehicles with EVs is a bit more expensive but the benefit is a significant step into a higher class of vehicles.
First let’s explore the current diesel fleet structure to understand the baseline. This analysis highlights the various models in use, providing a clear picture of our starting point.
Despite the fact that some cars drive up to 1000 km on some days of the year, 9/10 trips are 200-300 km and the median is between 20 and 200. At first glance, a challenging portfolio for electrification...
Through a detailed and proper route analysis, we have discovered that an impressive 92% of fleet’s routes are optimal for transitioning to electric vehicles. This significant finding underscores the feasibility and practicality of switching to EVs for the majority of the fleet's operations.
Key Insight: Most daily routes fall between 60 km and 240 km, providing an ideal base for EV adoption.
Economic Advantage: These routes support the lower operational costs of EVs, making them a competitive choice over diesel.
Technical Fit: The mileage aligns well with the capabilities of current mainstream EV models.
From the so-called “range anxiety” to concerns about real-world performance, there’s a lot of noise out there about electric vehicles. We’re here to cut through the myths with facts, data, and expert advice.
To ensure a seamless transition to an electric fleet, we’ve handpicked specific EV models that align perfectly with client's routes, mileage patterns, and budget. Each model has been evaluated for cost-effectiveness, range capabilities, and overall performance. Because of the driving profile of their employees, our client needed larger cars suitable for business trips, with a high-capacity battery for high mileage and good energy consumption. Also, they don't need to buy super cheap vehicles because even the more expensive ones beat cheaper diesel cars in costs calculations.
We made switching to electric simple. Using our advanced analytics, we identified which current vehicles in their fleet were perfect for EV replacement, selected the ideal EVs, and showed them exactly how much they’d save.
Plus, we determined the optimal charging technology for each vehicle based on their specific usage. Thanks to our expertise, client avoided hundreds of hours of guesswork and got precise results they couldn’t achieve on their own. Here’s the impact:
Identified fleet vehicles primed for electrification to maximize efficiency.
Matched the ideal electric vehicles to specific routes and usage patterns.
Demonstrated expected cost reductions from the transition to EVs.
Recommended the perfect charging solution for each vehicle, ensuring smooth operations.
Imagine slashing your operational costs, driving the best EVs, securing unbeatable deals, and fast-tracking your green goals. All this and more is within your reach. Why wait? The future of your fleet is electric, and it starts with a single step.
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When our client was ready to switch to electric vehicles, they faced a maze of misconceptions and challenges—ranging from range anxiety to misleading performance data. Through expert analysis, precision simulations, and tailored advice, we guided them through every step. Discover how we debunked common myths, provided real-world insights, and ensured a smooth transition to a fleet that saves money.
Our analysis shows that, despite high annual mileages, most routes can be easily covered by electric vehicles without the need for public charging. In fact, range anxiety is largely a myth, perpetuated by those unfamiliar with the true capabilities of modern EVs. Here are the four recommended models for our client with real range in best and worst conditions.
Switching to EVs can seem daunting, especially with the multitude of misconceptions floating around. While working with clients, we understand the concerns and confusion decision-makers face. Let’s debunk these myths and show how guide them through each challenge.
Myth: EVs can’t handle long distances, especially in winter or due to battery degradation.
Reality: With the right EVs and battery management strategies, we ensure your vehicles perform reliably year-round.
Myth: Delayed inflation effects will drive up vehicle prices.
Reality: We navigate market dynamics to secure the best deals and financing options for your fleet.
Myth: Inability to charge EVs efficiently will disrupt operations.
Reality: Setting up robust charging infrastructure tailored to each use case ensures convenience and reliability.
Myth: Rising electricity prices will make EVs more expensive than diesel.
Reality: Energy use can be optimized to get cost-saving opportunities and keep the TCO competitive.
Myth: A better and cheaper technology will soon replace EVs.
Reality: We stay ahead of technological trends, ensuring you invest in future-proof solutions.
Myth: Suppliers, employees, and drivers are resistant to adopting EVs.
Reality: Through targeted training and communication, we foster support and enthusiasm for EVs among all stakeholders.
Myth: The battery size you choose is either too small or too expensive.
Reality: We help clients to select the optimal battery size that balances cost and performance, tailored to your specific needs.
Myth: Too many EVs in one location will complicate charging logistics.
Reality: We plan for efficient home and depot charging, avoiding congestion and ensuring smooth operations.
Real-world performance between similarly priced EVs can vary significantly, with differences as much as 300% from listed WLTP range based on factors like temperature, driving speed, and even the type of tires used.
That’s why we do high-precision simulations tailored to your specific use cases, revealing the genuine performance of EVs under various conditions.
The simulations provide invaluable insights that manufacturers’ data often miss. For instance, EVs are highly sensitive to environmental conditions. Cold weather can drastically reduce range, and the absence of an independent heat source makes it crucial to understand how each vehicle generates cabin heat.
Key Benefits of Our EV Simulations
Uncover True Differences: Not all EVs perform the same in practice, even if they appear similar on paper.
Accurate Testing Conditions: We simulate real-world conditions, from local temperatures to driving speeds, ensuring you get precise performance indicators.
Detailed Performance Insights: We look at how air resistance, tire type, and driving style affect your EV’s range and efficiency