Turning Global Warming to Your Advantage

Under the former Greenpeace co-founder's scenario, Bambrough extrapolated the World Nuclear Association (WNA) projections for 2030. Nuclear power demand is then expected to soar from the current 368 Gw, produced by the world's 441 nuclear reactors. He computed, using Moore's premise of a 60-percent nuclear-reliance, that nuclear reactors would produce 18,900 Twh of the total power demand in 2030, which the WNA estimates might reach 31,500 Twh. To produce that much electricity, Bambrough calculated that by 2030, nearly 2700 nuclear reactors will be required across the planet. Envisioning the "potential" of a 600-percent increase in nuclear reactors online, about 25 years from now, Bambrough also calculated how much uranium would be required to fuel those reactors.

According to Bambrough, current global uranium mining production rests at about the 100 million-pound level. By 2030, if nuclear energy expands as Moore insists it should, then the world's utilities will require on the order of about 1.3 billion pounds every year. With regards to a planetary build-up of nuclear energy, Bambrough wrote, "The supply of uranium may well be the most limiting factor."

This may become the new case for a sustained rally in the spot uranium price. Bambrough wrote, "Much higher uranium prices will be required to attract enough investment capital to meet the growth in demand." This has already begun, as uranium prices have skyrocketed for the past six years. Long-term uranium recently traded as high as $46/pound, exponentially higher than the spot price of $6.40/pound in late 2000. Bambrough is correct in his conclusion. Building an underground uranium mine costs far more than it did in the glory days of uranium in the 1950s. Environmental regulations force miners to spend more and take longer in constructing any uranium-producing facility, including an ISL operation.

"Marginal mines will become price setters," wrote Bambrough. This helps explain why the Sprott Asset Management funds have invested heavily in companies such as Strathmore Minerals (TSX: STM; Other OTC: STHJF), Energy Metals (TSX: EMC) and others. When we first interviewed Strathmore Minerals Chief Executive, Dev Randhawa, in June 2004, he told us his strategy was to capitalize upon a sustained rally in the uranium price by acquiring properties which were uneconomic at the sub-$20/level. His strategy has rewarded shareholders and continued to do so with each uptick in the spot uranium price. If Bambrough's conclusion is accurate, the junior uranium developers could very well become the Internet high-fliers. That conclusion was reached by newsletter writer James Dines, this past November, and repeated numerous times in multiple reports by others.

"Large low-cost producers may be able to reap Middle East-like oil profits for decades," wrote Bambrough. If the spread between production costs and spot uranium keeps widening, the smaller uranium companies are going to hit it big. Those companies, which postponed uranium mining, will be selling their uranium production at the kind of profits-to-production spread ExxonMobil or ChevronTexaco now enjoy.

Rising uranium prices are probably more of an irritation for fuel traders than the utilities, who worry about construction costs. The actual fuel cost to operate a nuclear power plant borders on the absurd. Bambrough wrote in his report, "Fuel costs (for nuclear) are merely 4.5 percent of total costs, even with uranium at $40 per lb. If uranium rises to $100 per lb (a further 150 percent increase), the cost of nuclear power would only rise by approximately 6.75 percent." Fuel costs for coal and gas are 35 and 73 percent, respectively. And they release massive doses of CO2 into the air.

What else can be done aside from a worldwide, unanimous endorsement of nuclear energy? There may still be difficulties ahead. Lovelock told us the CO2 emissions problem should have been addressed 50 years ago. It takes between 50 and 100 years for the atmosphere to cycle through those emissions.

The Sprott report co-authors concluded there will be supply problems for food, water and energy. They envision problems with national security, soaring grain prices, and greater investments needed to provide water and energy to those who aren't buried ten feet deep in their indebtedness. They foresee a currency collapse as central banks flood the money system to provide liquidity. And, of course, gold will resume the role it has always held during times of overpowering economic calamity.

Is this too much reality for you? Should we just wait a while and see what transpires? We might not be so lucky. Some experts, such as the Chief Claims Strategist for Swiss Re, wrote in a March 2006 CERES report, "Global warming has accelerated from a problem that might affect our grandchildren, to one that could significantly disturb the social and economic conditions of our lifetime."

In other words, Messrs. Sprott and Bambrough are correct in their assumptions and conclusions. The time to get moving is today, not thirty years from now.

For a second opinion, before completing this column, we forwarded the Sprott report to David Miller. He wears many hats, including a consultancy to the International Atomic Energy Agency, third-term Wyoming legislator, president of Strathmore Minerals (TSX: STM) and a walking encyclopedia on uranium, geology, nuclear power and politics. He responded quite bluntly, "The fuel of the 19th century was coal. The fuel of the 20th century was oil. Both have run their economic course. Uranium is on its way to becoming the energy fuel of the 21st century. The crescendo of countries clamoring for nuclear energy has been growing louder in each year of this new millennium." Perhaps, we may yet see Moore's energy mix come to pass, or at least dramatic growth in the nuclear sector to more closely approach his targeted percentage level.

One key question remains unanswered, during our two-year investigation into uranium and nuclear energy. Sure, we've gotten a lot of answers, but we remain unconvinced. No one has satisfactorily answered this question: "Will there be sufficient supplies of 'already mined uranium' and current mining production available to the world's nuclear reactors to meet the anticipated global demand for electricity?" The make-break word in the above question is "available." Uranium is nearly everywhere. There are about 1.7 billion pounds of 'already mined uranium' in the world's inventories. But will there be enough uranium made available to the utilities when the time comes?

If there is not, today's spot uranium price could look comparable to gasoline prices, circa 1965, at some future point.

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