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Making the Move to Electric Utility Vehicles

On the surface, the process of transitioning gasoline-powered fleets to electric utility vehicles (EUV) fleet seems straightforward: Replace the current gas models with new electric versions. 

Of course, the decision is much more complex.  

Managers can choose from among several EUVs ranging from $15,000 to $35,000 per vehicle. Models include golf cart-style units to rugged all-terrain vehicles. Several factors that grounds managers at institutional and commercial facilities should consider to make a successful transition include noise and emission benefits, battery choices, gas vs. electric power myths and misconceptions, electrical infrastructure and budgeting to make the conversion.

Transition process 

Managers must do their research and homework before initiating a transition. Meaningful planning will save time and money down the road. Consider four steps to help make the decision. 

Noise and emissions 

Why consider transitioning from gas to battery electric EUVs? The benefits are many. Among them are noise, carbon dioxide, ground level ozone and fine-particulate emission reductions. Noise is reduced by as much as 70 percent, depending on the gas model replaced. A quieter environment will benefit the health and well-being of workers, wildlife and communities.   

EUVs produce zero emissions at the point of operation. Even if the electricity used to charge the batteries is supplied by fossil fuel sources, EUVs are a much lower-polluting alternative. If the electricity comes from renewable energy sources, most emissions are eliminated apart from the footprint related to manufacturing and building power plants. 

The New England Botanic Garden at Tower Hill recently became the first American Green Zone Alliance (AGZA) Certified Green Zone botanic garden in the nation. As part of this effort, the garden is converting its utility vehicle fleet from gas utility vehicles to EUVs. The garden will reduce its carbon footprint by more than 40 tons each year, equivalent to taking eight cars off the road or planting nearly 1,700 trees. The data is verified and substantiated by Environmental Landscape Footprint (ELF), software that measures impacts of outdoor vehicle and landscape maintenance activities. 

Dan Mabe is the founder and president of the American Green Zone Alliance (AGZA), www.agza.net, and has experience in grounds maintenance operations. AGZA hosts the first certification organization to train and certify professionals in advanced electric technologies and certify battery electric equipment in real world maintenance settings. Visit sustainablelandcare.org for information on online electric workforce training certificate courses.