Editor’s note: This is the second article of a three-part series. All views, and assertions presented therein are solely those of the author.
Geothermal is the enabling infrastructure for transport electrification: it reduces diesel generation, stabilises electricity costs, and turns Electric Vehicle (EV) charging into domestic energy instead of imported fuel.
Many people say: “EVs are fine, but we would just be charging them on diesel electricity.”
That objection is exactly why geothermal matters. Electrification is not simply a transport policy—it becomes an economic transformation when the electricity behind it becomes domestic, stable, and increasingly renewable.
Geothermal is no longer hypothetical
Dominica has already publicly set a commissioning timetable for its geothermal plant, and as we noted in our previous article the modest 10Mw output of our geothermal plant should be fully integrated into the national grid by June of this year.
The point is not to argue over a date by a few weeks. The point is that geothermal has moved from “promise” to “delivery,” and the sooner we expand it, the sooner we can electrify transport without increasing exposure to imported fuel.
Why this is an FX (Foreign Exchange) strategy, not just an energy strategy
Dominica’s fuel import bill is substantial for a small economy. Trading data places mineral fuels and related imports around US$56.3 million (2023). We should just note that in small open economies like ours, foreign exchange is the most critical asset the nation owns and the degree of efficiency with which it is used has an outsize impact on our standard of living.
That outflow is not stable. It rises when global oil prices rise, when freight and insurance costs rise, and when geopolitics shakes supply. Dominica cannot outbid the world for oil.
We can only do one serious thing: reduce the volume we must buy.
The most strategic lesson from 2025: deadlines drive behaviour
The late-2025 “newer used” ICE surge should teach us something: once incentives change, markets move.
So instead of lamenting the surge, we should design the next phase so that the market moves the way we want:
Make EV imports simple and predictable
Make financing available
Make charging reliable
Make geothermal expansion non-negotiable
What electrifying the fleet really means
Dominica has roughly 40,000 licensed vehicles on the road system (by practical estimate). Full electrification does not happen overnight because vehicles last a long time.
But we do not need full electrification to get big results. We need a plan that cuts fuel imports fastest. That plan is “fleet first.”
Phase 1 (2026–2029): Electrify high-mileage fleets
Taxis, buses, government fleets, rentals, deliveries. These vehicles burn fuel daily.
Electrifying them produces the quickest national savings, and it creates visible proof that the technology works.
Phase 2 (2028–2032): Make most new imports EV by default
Set clear categories and dates. Keep exemptions for specialised equipment where electrification is not yet practical—but end the assumption that importing passenger ICE vehicles is “normal forever.”
Phase 3 (2032 onward): Accelerate turnover with economics, not force
As EV charging becomes routine and geothermal expands, the operating-cost advantage becomes decisive. People will choose EVs because it makes financial sense.
The role of Government: make the incentives real in the hands of citizens
If incentives remain unclear, adoption remains slow. One of the surprising things I discovered in moving from an ICE to an EV was that my insurance company would not insure my EV! In point of fact I only found an insurance company willing to insure my car after calling 5 companies! The Government needs to move quickly to amend and/or introduce legislation that would require all insurers licensed to sell insurance on motor vehicles to end the discrimination against EV’s promptly. We should insure the future, not the past!
One concern which a number of persons have expressed to me is this: Where will I find a mechanic who can service my EV? This is a fair question. I will try to point to a solution.
China is already the largest producer of EV’s in the world as per the recent report of the Ambassador of China to Dominica. We already have a training and education programme with China. A diplomatic note to the Ambassador should be sufficient to arrange top quality training for our mechanics and lecturers in automotive maintenance and repair. In six months or so we can remedy the perceived lack of knowledge of EV maintenance – a four year degree is not needed.
Government-linked incentive guidance already points to duty/VAT exemptions for EVs.
What is missing is public clarity and speed. Every month of confusion is another month of ICE lock-in.
We should publish:
a one-page EV incentive guide,
a standard checklist for import approvals,
and a simple financing pathway for fleets (especially those that serve the public).
What the fuel savings look like for a typical Dominican driver
This is where the argument becomes real. Dominicans understand the pump.
At today’s petrol (pre-March 30th) a 2012 RAV4 burns real money. An EV of about the same weight uses electricity—still not cheap in Dominica, but materially cheaper per mile. (see Box below)
And the day geothermal expands and the fuel component of electricity falls to zero, EV charging becomes even more attractive.
In Part 3, I will connect this to the global shock now unfolding: war risks, shipping choke-points, and why geothermal expansion is not just “green.” It is national insurance.
2012 RAV4 vs Comparable EV—energy cost per 100 miles (Imperial gallons)
Petrol price (30 Mar 2026): EC$4.14/L.
That equals EC$18.82 per Imperial gallon.
2012 Toyota RAV4 fuel economy (US EPA combined):
2WD: 4.2 US gal / 100 miles (24 mpg combined)
4WD: 4.3 US gal / 100 miles (23 mpg combined) Converted to Imperial gallons and costed at EC$18.82/Imp gal:
RAV4 2WD: ≈ EC$65.82 per 100 miles
RAV4 4WD: ≈ EC$67.39 per 100 miles
Comparable EV (compact SUV class) example: BYD Atto 3 WLTP 16 kWh/100 km.
That is ≈ 25.75 kWh/100 miles (before charging losses). Using a conservative residential tariff reference of ~US$0.39/kWh (Energy Report Card 2023) and allowing ~10% charging losses, the EV comes out around:
≈ EC$30 per 100 miles
Savings: roughly EC$36–EC$37 per 100 miles.
At 6,000 miles/year, that is about EC$2,100–EC$2,200 per year in energy savings—before maintenance savings.
@Hmmmmmmm
Doe lie there, Tesla batteries are designed to last for roughly 300,000 to 500,000 miles (10–20 years). They also come with an 8 years or 120,000 miles warranty whichever comes first, with minimum 70% retention of Battery capacity over the warranty period.
Yah. And who in dca can afford to buy a Tesla. As I said the cars we will be getting will be those cheap Chinese crap cars that don’t last as long as a Tesla . So I am right. Those. Heap Chinese cars like byd and the lot are what will be coming into Dominica . So all what you said is meaningless as no one win have a tesla in dca as only uncle Skerrit and his Kabal would have that
Plus the same google u used to get that info also says that extreme heat and hot climates will severely degrade the batteries as well. And guess what. Dca is a very hot and very hilly country so those loads are gonna kill that batter extremely fast. You will never ever get that 8 years . Much less on a cheap Chinese car Brad as would be imported
Good article ,but idk where you got that gas price at EC$4.14/L. it’s per gallon in Dominica and it’s currently 15.67 EC per gallon no where close to your gallon conversion.
So you are trying to put me out of business by telling my customers do not buy ice because Trump used them to depot people because they burn gasoline and diesel? Are you prepared to support me when I cannot find trucks and cars after your government took my house and land with all my coconut plain tains bananas and throw me and my family out ?
Don’t panic!!! An electric truck will do just fine for moving agricultural produce. No gear box, engine oil, differential, pistons, piston rings, Camshaft , Crankshaft, clutch, spark plugs , Carburettor, fuel pump. Just one big electric motor with a big battery.
This is a good article with valid input on the benfits of producing electricity with emission free local resource. However, your use of archaic US measurement units is somwhat downgrading the content and is unintelligeble for most of the world.
Electric vehicles don’t need much maintenance. And the large batteries in EVs are too valuable to be left on the side of the road. They can be easily modified as a backup power source for homes or businesses.
Modern EV batteries are rated to keep 80% of their capacity after 10 years. And new processes are being developed to recycle the batteries. What we need is training for mechanics and electricians and a recycling programme like the one we have for lead-acid batteries.
Also don’t forget that gas vehicles are very inefficient. The majority of the energy in their fuel is wasted as heat and they constantly release pollution into the air.
Actually they need ALOT more . Because of there weight they go threw allot more tires and wheel beerings. Also in an emergency rescue is not as easy with a high voltage battery in it. And no they don’t last 10 years in the uk batteries are struggling to last 5 years. And that’s with high quality ones like Tesla. The cheaper Chinese cars barely make that time And those are the cars that would be imported into dca because of the. cost. Don’t be fooled by all the media crap out there. Electric cars are not built to last. They are built as throwaway appliances and it’s being seen in the UK. You dont want that nightmare in dca. The added electricity is best used for manufacturing in dca not silly electric cars. That do more harm to the country in the long run
This information reads like misinformation, even fake news. It contradicts the bulk of data online regarding modern electric vehicle technologies.
geothermal is the only way forward ! renewable clean energy for all 😊
Maybe the government can offer free installation of charging points at homes with affordable tariff if they want to encourage people to go full EV and ensure electric vehicles are more affordable than gas and diesel vehicles, and also charging points darted around petrol stations and other public spaces where charging is always accessible. The state college can offer students courses in installation and maintenance of these charging points/meters because some of them do breakdown regularly and need repairs. Good job opportunities for Dominican young men and women.
dominica cannot even recycle a used/crashed/end of life petrol/diesel cars. what do you think is going to happen to all them electric vehicles?
you seeing old vehicles on the side road rotting, imagine an electric car parked there for that long rotting. it either catches fire or degrades to a point where the chemicals released into the environment is a crime against nature
not to mention who in dca is gonna be repairing those cars when they go wrong?you seeing mechanics struggling to repair modern cars in dca already. newly imported cars sat on peoples drives cause no mechanic can fix them.
now try and bring electric cars into the mix . even in the united kingdom alot of those cars are not bought outright but are leased so as soon as something goes wrong they trade the car in for another one
electric cars are basically washing machines or microwaves and designed to be throw away
please please do not make the mistake and mass import electric cars into dominica