High uranium prices should not have a significant impact on the...

High uranium prices should not have a significant impact on the economics of
electricity production for existing reactors. We estimate that for each $5/lb
increase in the average price of uranium for a generator, the cost of
generating electricity would increase by $0.33 per MWh.
New reactor construction economics are only moderately sensitive to changes in
the price of uranium. To sustain the required return on equity for new
investments in nuclear generation, we estimate a $5/lb increase in the uranium
price would require a $0.25/MWh increase in electricity prices.
We have also compared nuclear generation to both gas and coal.
The economics of gas-fired generation are driven by the relatively low capital
cost, low emissions and fuel price. For existing gas-fired generation, we
estimate that for a $1/MMBtu change in the gas price the cost of generating one
MWh increases by $7.52. To sustain the required return on equity for new
investments in gas-fired generation, we estimate a $1/MMBtu increase in the gas
price would require a $7.42/MWh increase in electricity prices.
Coal-fired generation is competitive with nuclear, offering low cost volatility
and reliable base-load generation. We estimate that for each $0.50 per MMBtu
change in the price of coal, generating costs for existing plants changes by
$4.86/MWh. To sustain the required return on equity for new investments in coal-
fired generation, we estimate a $0.5/MMBtu change in the coal price would
result in a $4.79/MWh change to electricity prices.
Much of nuclear power's rebirth is thanks to the fact is has no airborne
emissions. Coal and gas, on the other hand emit CO2. When the potential future
cost of CO2 is factored into the cost analysis, nuclear becomes a clear winner.
We continue to believe that nuclear power will continue to grow in popularity.
The nuclear renaissance is in its nascent stage and we feel there will be many
more nuclear plant life extensions and new builds in the years to come.

Uranium Prices and Nuclear Generation Economics
We have analysed the price of uranium and its effect on nuclear economics; our
nuclear analysis is separated into two parts:
1. Existing Nuclear Operations; and
2. New Nuclear Construction: A comparison of nuclear to both coal and gas as
alternative generating choices and the effect of fuel price volatility and
capital costs.

Existing Operations
Uranium Prices Will Have a Minimal Effect on Nuclear Economics

It is important to note that our analysis does not factor in existing uranium
contracts held by all utilities - the actual realized price for uranium will be
lower due to legacy contracts.
For the currently installed fleet of nuclear generators, we do not believe that
the uranium price will have a significant effect on their economics. We
estimate that the uranium portion of ongoing cost, including ongoing
maintenance capital, has risen from approximately 6.5% to 22% as the uranium
price rose from $10/lb to today's $72/lb. This increase may appear to be
substantial, but we believe the impact on cash margins is relatively low, if
all other factors remain unchanged (see Exhibit 1). Additionally, many
utilities are able to capture fuel price increases through higher regulated
rates.
While operating costs have risen, cash margins should remain robust. Regulated
U.S. utilities generally receive a power price that is based on a pre-
determined return on equity formula that allows for a pass-through of fuel
costs. We believe our levelized cost analysis is a good proxy for regulated
rates, implying a regulated price for utilities of between $60/MWh and $70/MWh.
This is also in line with the average 2006 market rate in four main U.S.
markets as illustrated in Exhibit 2.
For utilities operating with regulated rates of ~$60/MWh, we estimate that a
utility's average uranium price would have to exceed $625 per pound for it to
break even on a cash basis without giving benefit for commensurate rate
increases. We believe it is unlikely the uranium price will reach this level in
today's dollar terms. This assumes conversion and enrichment prices are held at
today's levels.
It is important to note that most utilities have entered into contracts for
uranium purchases well into the future and, therefore, their average uranium
cost will only partly reflect the current spot market. Many of the legacy
contracts were signed when uranium was below $15/lb and often had ceilings on
the price on delivery; this is well illustrated by Cameco's contract structure
for the next 10 years:

A Comparison of Current Installed Nuclear Generation versus Gas and Coal
Comparing fuel price volatility between nuclear reactors versus gas and coal
fired generators shows that nuclear and coal are quite insensitive to fuel
price changes, whereas gas generation is highly sensitive. Existing nuclear
generation should not be economically affected by higher uranium prices,
especially since utilities have extensive contracts lasting as long as 15 years
with much lower, legacy pricing. Exhibit 5 illustrates our estimate of
generation costs for the three technologies at various fuel prices. This
analysis is for existing generating facilities and includes ongoing capital
only.

New Nuclear Construction
Uranium Prices Should Not Affect New Nuclear Builds
The decision to build new nuclear plants is very complex, driven by both
economics and politics. There are many variables that must be considered, some
of these measurable and others not. Today's political landscape is one where
environmental issues often outweigh economic returns. Greenhouse gas emissions,
once ignored, are becoming important factors to be considered when deciding on
an electricity generation technology.
Nuclear power generation, only recently considered an industry in terminal
decline, has been rejuvenated in a world of increasing electricity demand and
environmental concerns. Simply put, nuclear power provides greenhouse gas-
friendly, reliable, low-cost base load power. Its spent fuel is highly toxic,
but is relatively small in volume and manageable: most importantly, it can be
contained and tracked; something which is not possible for smokestack
emissions.
Governments around the globe are piling onto the nuclear power bandwagon.
However, there are still many questions regarding the economics of new builds.
In most Western countries nuclear power new builds have been few and far
between; in contrast China, India, Korea and Taiwan, for example, have been
recently building new reactors. The most significant economic questions that
need to be addressed for new nuclear plant construction, especially in the
West, are:

Capital Costs:
Historically, nuclear plants builds exceeded budgeted costs by a large margin.
However, more recent experience in Asia has shown that new plants can be built
on budget. Atomic Energy of Canada Limited (AECL) has designed six new reactors
in Romania, South Korea and China - all of which were on budget. New designs,
modular construction techniques, and partial turnkey guarantees are helping to
ensure that cost overruns are avoided.
Capital costs, also referred to as "overnight costs", include the construction,
engineering and procurement costs, owners costs and financing expense during
construction time. The cost is normally measured, for comparison purposes, in
US$/kW. The range of future capital cost estimates is wide and depends on the
technology and whether it is the first-of-a-kind (FOAK) build or an "nth"
build. Estimates range from $1,100 to $2,500 per kilowatt installed with more
recent generations of technology forecast to be towards the lower end of the
range. With the construction of more reactors and the experience gained, the
cost for each additional unit should drop. Further efficiencies should also be
driven from modular designs and shared components.
The sensitivity of new build economics to capital costs is the most important
variable. The reliability of the budgeted price will be key to determining
whether new construction is able to commence. To that end, nuclear plant
vendors have begun guaranteeing plant prices on a partial turnkey basis. AREVA
and Team CANDU have both been involved in recent plant construction on this
basis. We believe the turnkey guarantee is the only way new plants will be
built until generating companies and governments are comfortable with the build
process and price - this will only happen after the first round of new builds
are complete.

Construction time
The time the first shovel hits the ground until the first watt is generated can
vary significantly depending on the reactor technology, capacity constraints
and technical/regulatory issues. The time to build a reactor can significantly
affect the economics of a new build due to the additional carrying cost of debt
and the effect it has on the discounted cash flows.
Historically, the record of completing nuclear construction on time has been
poor. This was likely due to the fact that the technology was evolving with
each new build. At the extreme, reactor designs were being modified even during
construction. As a result, initial build time estimates were frequently
exceeded. The industry has recognized the need to ensure construction times are
managed and, to that end, new plant designs are focusing on modular
construction and, with time, the hope is to build many of one kind to reduce
the need for site-specific engineering requirements. Recent construction
projects in China, Korea and Japan provide evidence that build times are
improving. Additionally, pre-approval of nuclear technologies should help
minimize design changes before and during construction periods.

Government incentives
It is generally recognized that the first round of new reactor builds will be
challenging and costly and that subsequent new builds should be less expensive.
To overcome the hurdle of the first builds many governments are providing
incentives for new construction. These incentives come in many forms and help
mitigate the risk being borne by the purchaser and vendor. One of the benefits
of government incentives may also come in the form of low interest financing
(at, or near, government rates) which can dramatically lower the financial
hurdles of new investment.

Regulated Rates
In most jurisdictions where new nuclear plants are being considered, the
facilities will sell into regulated markets or government controlled markets.
In regulated markets the electricity price that will be paid to the facility
will be selected to ensure a specific return on equity. In government
controlled markets, generating technologies will be selected based on a
combination of financial and political reasons.