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Preliminary Analysis of Hydropower Impacts
<br /> Dry Year (1991) Wet Year (1984) Average Year (1982)
<br />Model Run Replacement
<br />Energy' Cost of
<br />Replacement
<br />Energy2 Replacement
<br />Energy' Cost of
<br />Replacement
<br />Energy2 Replacement
<br />Energy' Cost of
<br />Replacement
<br />Energy2
<br />A 0 0 0 0 0 0
<br />B 60,501 MWh $8,228,106 61,582 MWh $8,375,114 40,628 MWh $5,525,452
<br />C 61,430 MWh $8,354,443 60,123 MWh $8,176,679 46,918 MWh $6,380,828
<br />D 61,448 MWh $8,356,910 60,123 MWh $8,176,679 46,670 MWh $6,347,154
<br />E 61,278 MWh $8,333,837 85,095 MWh $11,572,879 39,143 MWh $5,323,392
<br />F 64,812 MWh $8,814,478 85,131 MWh $11,577,808 46,228 MWh $6,286,984
<br />G 64,962 MWh $8,834,863 85,131 MWh $11,577,808 46,224 MWh $6,286,490
<br />' Baseline annual generation - Annual generation = replacement energy
<br />2 Replacement energy X average of NYMEX summer (June, July, August, September) onpeak price ($136 per MWh) = Annual
<br />cost of replacement energy. Other cost factors such as volatility of the power market and loss of.peaking power revenues at Morrow
<br />Point and Blue Mesa during spill periods have not been included in the analysis at this time.
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