So the much anticipated climate bill — expected to be unveiled this Monday — has been delayed.
Again.
But that doesn’t take away from its content, or the impact it will have on energy investors…
In order to get the 60 votes needed for passage, the bill has taken on a bipartisan form. And that means investors of all stripes will find something they like.
Most notably, the bill calls for the construction of 12 new nuclear plants.
With a cost of between $5 billion and $10 billion apiece, we could be looking at the creation of a $120 billion market with the stroke of a pen.
A Profit Chain Reaction
Back in February, the Obama administration approved an $8.3 billion loan guarantee to help Southern Co. (NYSE: SO) build two nuclear reactors in Georgia. They would be the first nuclear reactors built in the United States in three decades.
But the important part of that announcement never made headlines; that Westinghouse would be providing the reactors.
The company that will own the reactors is irrelevant. The action is in the companies providing the reactors.
Take a look at how Toshiba (PINK SHEETS: TOSBF) — owner of Westinghouse — has been performing:
As a nuclear renaissance unfolds around the globe, orders for Westinghouse’s AP1000 reactor have propelled Toshiba much higher.
And we’re still in the early stages of this revival. Ground hasn’t even been broken in the U.S. for new plants yet.
That means there’s still time to get ahead of the nuclear profit chain reaction about to go down.
And I’ve dug up a list of pending applications, complete with the type of reactor to be used…
Company | Type of Reactor | Site/Units |
NRG Energy (NYSE: NRG) | ABWR | South Texas (2 Units) |
NuStart Energy | AP1000 | Bellefonte (2 Units) |
UNISTAR | EPR | Calvert Cliffs (1 Unit) |
Dominion(NYSE: D) | ESBWR | North Anna (1 Unit) |
Duke (NYSE: DUK) | AP1000 | William Lee (2 Units) |
Progress Energy (NYSE: PGN) | AP1000 | Harris (2 Units) |
NuStart Energy | ESBWR | Grand Gulf (1 Unit) |
Southern (NYSE: SO) | AP1000 | Vogtle (2 Units) |
South Carolina Electric & Gas | AP1000 | Summer (2 Units) |
Progress Energy (NYSE: PGN) | AP1000 | Levy County (2 Units) |
Detroit Edison | ESBWR | Fermi (1 Unit) |
Luminant Power | US-APWR | Comanche Peak (2 Units) |
Entergy (NYSE: ETR) | ESBWR | River Bend (1 Unit) |
Ameren (NYSE: AEE) | EPR | Callaway (1 Unit) |
UNISTAR | EPR | Nine Mile Point (1 Unit) |
PPL Generation (NYSE: PPL) | EPR | Bell Bend (1 Unit |
Since the middle of 2007, 16 applications have been filed to build nuclear plants with a total of 24 units. All these applications have been approved.
Here’s how those orders break down:
Westinghouse AP1000 – 12 Units
Areva EPR – 4 Units
GE (ESBWR & ABWR) – 6 Units
Mitsubishi Heavy Industry US-APWR – 2 Units
With two times more orders than its nearest competitor in the U.S., it’s not surprising that Toshiba’s share value has nearly doubled in the past year.
I’d still be buying at this level, given the amount of proposed reactors popping up all over the globe.
The Strong Silent Type
One major player isn’t listed at all in the table above.
They’re already providing reactors in other countries, and my research shows they’ll soon be importing reactors to the U.S.
The company is Korea Electric Power (NYSE: KEP). This is the same firm that recently won an order worth $40 billion from the United Arab Emirates.
Under that contract, KEP will get $20 billion to build four reactors and obtain an additional $20 billion to operate them for 60 years.
The stock has been on a tear. And it’s not finished yet:
I’ve got word that a tiny American firm will be importing their reactors in the next few years.
You’ll want to be in KEP when that happens.
But more importantly, you’ll want to be holding shares of the tiny company that has exclusive rights to import them.
Expect more on that story in the next few weeks.
Call it like you see it,
Nick
P.S. Yesterday, a reader asked me to weigh in on the uranium fuel supply situation, given all the new reactors about to sprout up. What I’ve found is that our supply of uranium will be greatly extended, thanks to new advancements with the metal beryllium. University research has shown that when combined with uranium as an oxide, beryllium can alleviate safety concerns, reduce radioactive half-life, and save billions in operating costs.
More importantly, it allows much more energy to be extracted from the uranium, which means our supply will last much longer than once thought. To learn more about this research — and the company with exclusive rights to the technology — you can read the report I’ve posted here.