Denison Reports Assays Increase Grades by 45% and Deliver Most Meaningful Gryphon D-Lens Result to Date at Wheeler River

Ad blocking detected

Thank you for visiting CanadianInsider.com. We have detected you cannot see ads being served on our site due to blocking. Unfortunately, due to the high cost of data, we cannot serve the requested page without the accompanied ads.

If you have installed ad-blocking software, please disable it (sometimes a complete uninstall is necessary). Private browsing Firefox users should be able to disable tracking protection while visiting our website. Visit Mozilla support for more information. If you do not believe you have any ad-blocking software on your browser, you may want to try another browser, computer or internet service provider. Alternatively, you may consider the following if you want an ad-free experience.

Canadian Insider Ultra Club
$500/ year*
Daily Morning INK newsletter
+3 months archive
Canadian Market INK weekly newsletter
+3 months archive
30 publication downloads per month from the PDF store
Top 20 Gold, Top 30 Energy, Top 40 Stock downloads from the PDF store
All benefits of basic registration
No 3rd party display ads
JOIN THE CLUB

* Price is subject to applicable taxes.

Paid subscriptions and memberships are auto-renewing unless cancelled (easily done via the Account Settings Membership Status page after logging in). Once cancelled, a subscription or membership will terminate at the end of the current term.

Denison Reports Assays Increase Grades by 45% and Deliver Most Meaningful Gryphon D-Lens Result to Date at Wheeler River

TORONTO, ONTARIO--(Marketwired - May 26, 2017) - Denison Mines Corp. ("Denison" or the "Company") (TSX:DML)(NYSE MKT:DNN) is pleased to report a significant increase in uranium grades from previously released preliminary radiometric probe results, following the receipt of uranium assays from the Company's winter 2017 drilling program on the 60% owned Wheeler River project. The winter 2017 exploration program involved a combination of infill drilling at the Gryphon deposit and resource expansion exploration drilling to the northwest of the Gryphon deposit. The Wheeler River project is host to the high-grade Gryphon and Phoenix uranium deposits, and is the largest undeveloped high-grade uranium project in the infrastructure rich eastern portion of the Athabasca Basin region in northern Saskatchewan.

The Company currently reports preliminary radiometric equivalent grades ("eU3O8"), derived from a calibrated downhole total gamma probe, during its exploration programs and subsequently reports definitive assay grades following sampling and geochemical analysis of the mineralized drill core.

Highlights

  • As has been the case in past years, assays returned higher grades of U3O8 than the preliminary eU3O8 reported during the drilling program. For the winter 2017 results, assay grades greater than 0.5% U3O8 were on average 45% higher than their corresponding radiometric equivalent grades; 
  • Drill hole WR-633D3 returned assay results of 3.3% U3O8 over 13.5 metres, 6.2% U3O8 over 2.5 metres and 1.3% U3O8 over 3.0 metres within the D series lenses. This result represents the best hole drilled to date, in terms of combined grades and thicknesses of mineralization, from the mineralized zone identified to the northwest of the current resources estimated for the Gryphon deposit.

In November 2015, the Company estimated the Gryphon deposit to contain inferred resources of 43.0 million pounds U3O8 (above a cut-off grade of 0.2% U3O8) based on 834,000 tonnes of mineralization at an average grade of 2.3% U3O8, occurring as a series of stacked lenses on various stratigraphic, fault-controlled planes within the basement rocks - termed the A, B, and C series lenses. Since then, a significant zone of new mineralization has been discovered and partially delineated to the northwest, termed the D series of lenses, in combination with the discovery of additional mineralization on the A and B planes. Taken together, results from exploration drilling since the beginning of 2016, has defined a mineralized zone that comprises multiple lenses spanning over 300 metres in strike length and remains open.

Dale Verran, Denison's Vice President of Exploration, commented, "This set of Gryphon assay results have exceeded expectations - particularly for drill hole WR-633D3, which now ranks as the best hole to date in the D series of lenses. These results re-emphasize the potential of the D series lenses to add meaningful resources to the Gryphon deposit, ahead of a planned update to the resource estimate for the project. This summer, in addition to the ongoing infill drilling at Gryphon, we are planning to continue to explore the D lenses with the objective of defining high-grade zones and maximizing the indicated resources that will be included in the upcoming PFS."

The Company is also pleased to report the assay results from its infill drilling program at the Gryphon deposit, including the results of a further 17 drill holes, totaling 8,402 metres. The results confirm the continuity and high-grades of Gryphon's A, B and C series inferred resources and indicate potential for resource growth with higher than expected assay grades compared to the inferred grade model in certain portions of the deposit. A further 18 drill holes are planned to be completed during the summer 2017 program to complete the infill program at Gryphon. 

Technical Highlights From Assay Results

Winter 2017 assay results for exploration drilling are provided in Table 1. Nine holes totalling 6,330 metres were completed outside of the current inferred resources estimated for the Gryphon deposit, including four holes targeting the Gryphon D series lenses, and five holes down-dip of the A and B series lenses. The highlights from these results illustrate the potential for meaningful resource expansion at Gryphon:

  • 3.3% U3O8 over 13.5 m (including 11.8% U3O8 over 3.5 m) D series mineralization in WR-633D3
  • 6.2% U3O8 over 2.5 m D series mineralization in WR-633D3
  • 1.3% U3O8 over 3.0 m (including 3.8% U3O8 over 1.0 m) D series mineralization in WR-633D3
  • 2.9% U3O8 over 3.0 m (including 8.5% U3O8 over 1.0 m) B series mineralization in WR-689
  • 8.6% U3O8 over 1.0 m D series mineralization in WR-689
  • 15.1% U3O8 over 1.0 m D series mineralization in WR-689

In addition to exploration drilling to expand mineralization outside of the current Gryphon resource, the 2017 winter drilling program continued with infill and delineation drilling with the objective of increasing the level of confidence of the current inferred resources to an indicated level. Winter 2017 assay results from infill and delineation drilling are provided in Table 2, and represent an overall increase in grade and thicknesses of mineralization in comparison to the previously reported radiometric equivalent grade results (see Denison's press releases dated March 29, 2017 and April 20, 2017). Highlights from the infill results include the following results:

  • 7.3% U3O8 over 6.0 m (including 10.9% U3O8 over 4.0 m) A series mineralization in WR-567D2
  • 1.9% U3O8 over 6.6 m (including 3.4% U3O8 over 3.0 m) B series mineralization in WR-567D2
  • 5.1% U3O8 over 7.0 m (including 7.6% U3O8 over 4.5 m) A series mineralization in WR-567D1
  • 5.5% U3O8 over 3.5 m B series mineralization in WR-567D1
  • 4.0% U3O8 over 9.0 m A series mineralization in WR-687D2
  • 4.3% U3O8 over 6.0 m (including 8.2% U3O8 over 3.0 m) A series mineralization in WR-582D2
  • 3.1% U3O8 over 5.5 m (including 8.0% U3O8 over 2.0 m) A series mineralization in WR-606D2
  • 2.8% U3O8 over 5.5 m (including 14.2% U3O8 over 1.0 m) A series mineralization in WR-688D3
  • 1.6% U3O8 over 8.0 m (including 11.6% U3O8 over 1.0 m) A series mineralization in WR-688D2

Illustrative Figures & Further Details

A plan map of the Gryphon A, B, C and D series lenses is provided in Figure 1. The inset on Figure 1 shows a schematic cross section of the A, B, C and D series lenses and their respective inclined longitudinal section windows (as shaded rectangles). Figures 2 to 5 provide inclined longitudinal sections of the Gryphon A, B, C and D series lenses respectively. The modelled mineralized lenses shown in Figures 1 to 5 are defined using a 0.05% U3O8 or eU3O8 grade shell and minimum thickness of two metres. There is no certainty that the modelled mineralized lenses shown will constitute future mineral resources and they may be subject to modifications as further drilling data becomes available.

To view Figures 1-5, please visit the following link: http://media3.marketwire.com/docs/denifigs0526.pdf

Further details regarding the Gryphon deposit and the current mineral resource estimates are provided in the NI 43-101 Technical Report for the Wheeler River project titled "Preliminary Economic Assessment for the Wheeler River Uranium Project, Saskatchewan, Canada" dated April 8, 2016 with an effective date of March 31, 2016.  A copy of this report is available on Denison's website and under its profile on SEDAR at www.sedar.com and on EDGAR at www.sec.gov/edgar.shtml.

Sampling and Assay Procedures

Drill core with anomalous total gamma radioactivity (>500 counts per second) was sampled over 0.5 metre intervals. Sampling is undertaken on site by splitting the core in half, with one half submitted for analysis and the other half retained in the core box for future reference. Uranium assays are performed by the Saskatchewan Research Council ("SRC") Geoanalytical Laboratories using an ISO/IEC 17025:2005 accredited method for the determination of U3O8 weight %. Sample preparation involves crushing and pulverizing core samples to 90% passing -106 microns. The resultant pulp is digested using aqua-regia and the solution analyzed for U3O8 weight % using ICP-OES. Core recovery at Gryphon is typically 100% and therefore radiometric equivalent U3O8 grades ("eU3O8") are not required as a substitute for chemical U3O8 assays. In addition to internal checks by SRC Geoanalytical Laboratories, the Company has rigorous quality assurance and quality control ("QAQC") procedures including the insertion of standard reference materials, blanks and field duplicates. The assay data is subject to verification procedures by qualified persons employed by Denison prior to disclosure. For further details on the assay, QAQC and data verification procedures please see Denison's Annual Information Form dated March 23, 2017 filed under the Company's profile on SEDAR (www.sedar.com).

Detailed Assay Results

The following tables provide the detailed assay results from the drill holes completed during the winter 2017 exploration program at Wheeler River. The assay results are shown next to the previously reported radiometric equivalent results, and have been assigned a lens designation based on the stratigraphic position of the mineralized interval.

Table 1: Winter 2017 assay results for exploration drilling outside of the Gryphon resource

        Previously reported
Downhole Total Gamma Probe
4,8
  Final Assay5,8 Lens
Section   Hole Number   From (m)   To (m)   Length9(m)   eU3O8(%)2   From (m) To (m) Length9(m) U3O8(wt%)3
    WR-689D1   560.5   561.5   1.0   0.22   560.8 562.8 2.0 0.07 B
    and   566.3   567.3   1.0   0.11   Below cut-off grade of 0.05% U3O8 B
    and   570.4   571.4   1.0   0.18   571.2 572.2 1.0 0.23 B
    and   668.4   669.4   1.0   0.13   668.8 669.8 1.0 0.09 D
5175GP   and   675.7   676.7   1.0   0.13   673.7 674.7 1.0 0.12 D
    and1   Below cut-off grade of 0.1% eU3O8   676.2 677.2 1.0 0.15 D
    and   679.7   680.7   1.0   1.6   680.2 681.2 1.0 1.5 D
    and   692.3   693.7   1.4   0.23   692.9 694.4 1.5 0.16 D
    WR-689   557.2   558.6   1.4   0.54   Navigational drilling - no core recovery A
    and   561.0   562.0   1.0   0.13   Navigational drilling - no core recovery B
    and   564.9   566.8   1.9   2.74   564.0 567.0 3.0 2.9 B
    including6,7   565.6   566.6   1.0   5.08   566.0 567.0 1.0 8.5 B
    and   573.2   574.2   1.0   0.60   573.0 574.0 1.0 0.95 B
    and   584.1   585.1   1.0   0.32   584.0 585.0 1.0 0.19 B
5200GP   and1   Below cut-off grade of 0.1% eU3O8   666.6 667.6 1.0 0.05 D
    and   679.6   680.6   1.0   0.50   680.4 681.4 1.0 0.20 D
    and   684.6   685.6   1.0   0.15   685.2 686.2 1.0 0.23 D
    and   711.1   712.8   1.7   2.86   712.0 713.0 1.0 8.6 D
    and   718.4   719.6   1.2   7.5   719.7 720.7 1.0 15.1 D
    WR-633D3   674.6   675.6   1.0   0.12   675.3 676.3 1.0 0.09 B
    and   742.8   743.8   1.0   0.11   743.5 744.5 1.0 0.09 D
    and   753.3   756.4   3.1   0.75   753.9 756.9 3.0 1.3 D
    including6,7   755.3   756.3   1.0   2.0   755.9 756.9 1.0 3.8 D
    and   758.6   771.8   13.2   2.5   759.2 772.7 13.5 3.3 D
    including6,7   764.3   768.1   3.8   7.8   765.2 768.7 3.5 11.8 D
    including1,6,7   Below cut-off grade of 1.0% eU3O8   771.7 772.7 1.0 1.0 D
    and   774.6   777.4   2.8   3.7   775.4 777.9 2.5 6.2 D
    WR-690   585.9   587.0   1.1   0.18   586.9 587.9 1.0 0.21 B
    and   593.0   594.0   1.0   0.74   594.0 595.0 1.0 0.62 B
5225GP   and   654.5   655.5   1.0   0.70   655.6 656.6 1.0 0.66 C
    and   722.3   723.3   1.0   0.23   723.4 724.4 1.0 0.16 D
    and   726.1   727.1   1.0   0.18   727.4 728.4 1.0 0.16 D

Notes: 

  1. Result not reported previously
  2. eU3O8 is the radiometric equivalent U3O8 derived from a calibrated total gamma downhole probe
  3. U3O8 is the chemical assay of mineralized split core samples
  4. Downhole probe result composited above a cut-off grade of 0.1% eU3O8 unless otherwise indicated
  5. Assay result composited above a cut-off grade of 0.05% U3O8 unless otherwise indicated
  6. Downhole probe result composited above a cut-off grade of 1.0% eU3O8
  7. Assay result composited above a cut-off grade of 1.0% U3O8
  8. Composites compiled using 1.0 metre minimum mineralization thickness and 2.0 metres maximum waste
  9. As the drill holes are oriented steeply toward the northwest and the basement mineralization is interpreted to dip moderately to the southeast, the true thickness of the mineralization is expected to be approximately 75% of the intersection lengths

Table 2: Winter 2017 assay results for Gryphon resource infill and delineation holes

        Downhole Total Gamma Probe4,8   Assay5,8    
Section   Hole Number   From (m)   To (m)   Length9(m)   eU3O8(%)2   From (m)   To (m)   Length9(m)   U3O8(wt%)3   Lens
    WR-584BD1   624.8   627.8   3.0   2.0   626.3   628.3   2.0   4.0   A
4775GP   including6,7   626.0   627.6   1.6   3.7   626.3   627.8   1.5   5.0   A
    and1   Below cut-off grade of 0.1% eU3O8   631.8   632.8   1.0   0.05   B
    and   637.6   638.6   1.0   0.11   638.2   639.2   1.0   0.08   B
    WR-683   No significant mineralization   No significant mineralization    
    WR-683D1   635.8   638.9   3.1   1.8   635.5   639.0   3.5   1.3   A
    including6,7   636.2   638.2   2.0   3.5   637.0   639.0   2.0   2.1   A
    and   645.2   646.2   1.0   0.31   645.5   646.5   1.0   0.73   B
    and   657.5   658.5   1.0   0.46   658.0   659.0   1.0   0.12   B
    WR-687D11   Below cut-off grade of 0.1% eU3O8   664.5   665.5   1.0   0.09   A
4825GP   and   672.0   673.0   1.0   0.40   667.0   674.0   7.0   0.06   A
    and   673.4   674.4   1.0   0.10   Merged with interval above   A
    and   676.6   678.0   1.4   1.6   677.0   678.5   1.5   2.9   B
    including6,7   676.8   677.8   1.0   2.2   677.5   678.5   1.0   4.1   B
    and   682.7   683.7   1.0   0.55   683.0   684.0   1.0   0.64   B
    WR-575D1   626.2   625.9   1.5   0.36   624.0   627.0   3.0   0.28   A
    and1   Below cut-off grade of 0.1% eU3O8   648.0   650.5   2.5   0.15   B
    and1   Below cut-off grade of 0.1% eU3O8   652.5   653.5   1.0   0.05   B
    WR-6871   Below cut-off grade of 0.1% eU3O8   666.0   667.0   1.0   0.07   A
    and   681.4   682.4   1.0   0.14   Below cut-off grade of 0.05% U3O8   A
    and   685.0   686.5   1.5   0.88   685.2   686.7   1.5   0.47   A
    and   690.8   691.8   1.0   0.12   Below cut-off grade of 0.05% U3O8   B
4900GP   WR-687D21   Below cut-off grade of 0.1% eU3O8   537.0   538.0   1.0   0.05   A
    and   648.9   649.9   1.0   1.8   649.8   650.8   1.0   2.8   A
    and   652.8   661.9   9.1   2.5   653.4   662.4   9.0   4.0   A
    and1   Below cut-off grade of 0.1% eU3O8   670.0   672.0   2.0   0.09   B
    and   676.3   677.3   1.0   0.10   Below cut-off grade of 0.05% U3O8   B
    and   686.2   687.4   1.2   0.15   687.2   688.2   1.0   0.24   B
    WR-567D1   674.3   675.9   1.6   0.33   675.0   676.5   1.5   0.51   A
    and   689.8   690.8   1.0   0.66   691.0   693.0   2.0   0.49   A
4950GP   and   694.9   696.9   2.0   1.3   695.5   696.5   1.0   3.1   A
    and   700.0   707.1   7.1   3.9   701.0   708.0   7.0   5.1   A
    including6,7   701.1   705.5   4.4   6.1   702.0   706.5   4.5   7.6   A
    and   723.1   727.1   4.0   3.8   724.0   727.5   3.5   5.5   B
    WR-567D21   Below cut-off grade of 0.1% eU3O8   585.8   586.8   1.0   0.06   A
    and1   Below cut-off grade of 0.1% eU3O8   663.1   664.1   1.0   0.05   A
    and   664.5   665.6   1.1   0.42   664.6   665.6   1.0   0.09   A
    and   670.1   671.1   1.0   0.89   670.1   671.1   1.0   1.2   A
    and   691.2   692.2   1.0   1.2   691.7   692.7   1.0   0.66   A
    and   694.3   695.7   1.4   0.71   695.0   696.0   1.0   0.61   A
    and   698.4   704.6   6.2   5.9   698.8   704.8   6.0   7.3   A
4975GP   including6,7   700.2   704.3   4.1   8.7   700.8   704.8   4.0   10.9   A
    and1   Below cut-off grade of 0.1% eU3O8   711.5   712.5   1.0   0.07   B
    and   713.5   714.9   1.4   0.22   714.0   716.0   2.0   0.15   B
    and   732.8   736.4   3.6   2.1   733.4   740.0   6.6   1.9   B
    including6,7   733.0   735.8   2.8   2.6   733.4   736.4   3.0   3.4   B
    including1,6,7   Below cut-off grade of 1.0% eU3O8   739.0   740.0   1.0   2.1   B
    and   739.0   740.0   1.0   0.40   Merged with interval above   B
    and   744.8   747.4   2.6   0.28   745.5   748.0   2.5   0.29   B
    WR-606D21   Below cut-off grade of 0.1% eU3O8   747.5   748.5   1.0   0.09   A
    and   764.3   765.3   1.0   0.11   765.0   766.0   1.0   0.05   A
    and1   Below cut-off grade of 0.1% eU3O8   770.5   771.5   1.0   0.06   A
    and1   Below cut-off grade of 0.1% eU3O8   777.7   778.7   1.0   0.09   A
    and   785.4   786.4   1.0   0.15   785.9   786.9   1.0   0.13   A
    and   792.4   793.4   1.0   0.11   Merged with interval below   A
    and   794.2   798.8   4.6   2.0   793.6   799.1   5.5   3.1   A
    including6,7   795.9   797.8   1.9   4.1   796.6   798.6   2.0   8.0   A
    and   803.5   808.1   4.6   0.45   805.1   808.6   3.5   0.34   B
5100GP   including6,7   804.6   805.6   1.0   1.5   805.1   806.1   1.0   1.0   B
    WR-688D3   758.1   759.1   1.0   0.24   758.5   759.5   1.0   0.38   A
    and   762.4   767.7   5.3   2.7   763.0   768.5   5.5   2.8   A
    including6,7   764.4   765.7   1.3   9.4   765.0   766.0   1.0   14.2   A
    and1   Below cut-off grade of 0.1% eU3O8   770.5   772.5   2.0   0.07   B
    and   775.2   776.2   1.0   0.12   Merged with interval below   B
    and   779.1   780.1   1.0   0.11   Merged with interval below   B
    and   780.4   781.4   1.0   0.10   Merged with interval below   B
    and   782.2   785.1   2.9   0.71   775.5   785.5   10.0   0.26   B
    including6,7   783.5   784.5   1.0   1.6   784.0   785.0   1.0   1.6   B
    and   793.1   794.2   1.1   5.4   793.7   794.7   1.0   9.2   C
    WR-6881   Below cut-off grade of 0.1% eU3O8   520.6   521.6   1.0   0.09   A
    and   774.1   778.9   4.8   0.51   774.5   783.5   9.0   0.30   A
5125GP   WR-688D2   756.5   757.5   1.0   0.33   757.5   758.5   1.0   0.95   A
    and   761.2   762.7   1.5   3.0   762.3   770.3   8.0   1.6   A/B
    including6,7   761.3   762.3   1.0   4.3   762.3   763.3   1.0   11.6   A
    and   767.5   769.2   1.7   0.47   Merged with interval above   B
    WR-582D2   741.6   742.6   1.0   0.72   741.5   743.0   1.5   0.34   A
    and   746.2   752.0   5.8   4.1   746.5   752.5   6.0   4.3   A
    including1,6,7   Below cut-off grade of 1.0 % eU3O8   747.5   748.5   1.0   1.0   A
    including6,7   748.8   751.6   2.8   8.1   749.0   752.0   3.0   8.2   A
    WR-684   796.1   797.1   1.0   0.11   797.6   798.6   1.0   0.14   A
5150GP   and   813.7   827.9   14.2   0.39   815.1   829.6   14.5   0.46   A
    including6,7   813.7   814.7   1.0   1.2   815.1   816.1   1.0   2.1   A
    including1,6,7   Below cut-off grade of 1.0 % eU3O8   817.1   818.1   1.0   1.2   A
    and   830.5   835.1   4.6   2.5   832.2   836.2   4.0   1.9   B
    including6,7   831.0   832.2   1.2   8.3   832.7   833.7   1.0   6.8   B
    WR-688D1   766.5   768.9   2.4   0.72   767.5   770.0   2.5   0.32   A
    and   775.5   776.5   1.0   0.16   776.5   778.0   1.5   0.15   A
    WR-684D11   Below cut-off grade of 0.1% eU3O8   794.4   795.4   1.0   0.06   A
    and   803.6   805.2   1.6   0.18   805.5   812.5   7.0   0.15   A
5175GP   and   806.4   807.4   1.0   0.13   Merged with interval above   A
    and   808.3   810.2   1.9   0.18   Merged with interval above   A
    and   813.6   815.5   1.9   0.18   815.5   817.5   2.0   0.19   A
    and   831.5   832.5   1.0   0.12   833.5   834.5   1.0   0.17   B

Notes: 

  1. Result not reported previously
  2. eU3O8 is the radiometric equivalent U3O8 derived from a calibrated total gamma downhole probe
  3. U3O8 is the chemical assay of mineralized split core samples
  4. Downhole probe result composited above a cut-off grade of 0.1% eU3O8 unless otherwise indicated
  5. Assay result composited above a cut-off grade of 0.05% U3O8 unless otherwise indicated
  6. Downhole probe result composited above a cut-off grade of 1.0% eU3O8
  7. Assay result composited above a cut-off grade of 1.0% U3O8
  8. Composites compiled using 1.0 metre minimum mineralization thickness and 2.0 metres maximum waste
  9. As the drill holes are oriented steeply toward the northwest and the basement mineralization is interpreted to dip moderately to the southeast, the true thickness of the mineralization is expected to be approximately 75% of the intersection lengths

Qualified Persons

Dale Verran, MSc, Pr.Sci.Nat., Denison's Vice President, Exploration, who is a Qualified Person in accordance with the requirements of NI 43-101 has reviewed and approved the technical information contained in this release.

About Wheeler River

Wheeler River is the largest undeveloped high-grade uranium project in the infrastructure rich eastern portion of the Athabasca Basin region, in northern Saskatchewan. The project is a joint venture between Denison (60% and operator), Cameco Corp. ("Cameco") (30%), and JCU (Canada) Exploration Company Limited ("JCU") (10%), and is host to the high-grade Gryphon and Phoenix uranium deposits discovered by Denison in 2014 and 2008, respectively. The Gryphon deposit is hosted in basement rock and is currently estimated to contain inferred resources of 43.0 million pounds U3O8 (above a cut-off grade of 0.2% U3O8) based on 834,000 tonnes of mineralization at an average grade of 2.3% U3O8. The Phoenix unconformity deposit is located approximately 3 kilometres to the southeast of Gryphon and is estimated to include indicated resources of 70.2 million pounds U3O8 (above a cut-off grade of 0.8% U3O8) based on 166,000 tonnes of mineralization at an average grade of 19.1% U3O8, and is the highest grade undeveloped known uranium deposit in the world. 

On April 4th, 2016, Denison announced the results of a Preliminary Economic Assessment ("PEA") for the Wheeler River Project, which considers the potential economic merit of co-developing the high-grade Gryphon and Phoenix deposits as a single underground mining operation. The PEA returned a base case pre-tax Internal Rate of Return ("IRR") of 20.4% based on the current long term contract price of uranium (US$44.00 per pound U3O8), and Denison's share of estimated initial capital expenditures ("CAPEX") of CAD$336M (CAD$560M on 100% ownership basis). Exploration results from the subsequent drilling programs have not been incorporated into the resource estimate or the PEA. The PEA is preliminary in nature and includes inferred mineral resources that are considered too speculative geologically to have the economic considerations applied to them to be categorized as mineral reserves, and there is no certainty that the preliminary economic assessment will be realized. Mineral resources are not mineral reserves and do not have demonstrated economic viability. On July 19th, 2016 Denison announced the initiation of a Pre-Feasibility Study ("PFS") for the Wheeler River property and the complimentary commencement of an infill drilling program at the Gryphon deposit to bring the inferred resources to an indicated level of confidence.

As previously announced on January 10, 2017, Denison has entered into an agreement with its Wheeler River Joint Venture partners, Cameco and JCU, to fund 75% of Joint Venture expenses in 2017 and 2018 (ordinarily 60%) in exchange for an increase in Denison's interest in the project to up to approximately 66%. Under the terms of the agreement, Cameco will fund 50% of its ordinary 30% share in 2017 and 2018, and JCU is expected to continue to fund its 10% interest in the project.

About Denison

Denison is a uranium exploration and development company with interests focused in the Athabasca Basin region of northern Saskatchewan. Including its 60% owned Wheeler River project, which hosts the high-grade Phoenix and Gryphon uranium deposits, Denison's exploration portfolio consists of numerous projects covering over 330,000 hectares in the infrastructure rich eastern Athabasca Basin. Denison's interests in Saskatchewan also include a 22.5% ownership interest in the McClean Lake joint venture, which includes several uranium deposits and the McClean Lake uranium mill, which is currently processing ore from the Cigar Lake mine under a toll milling agreement, plus a 25.17% interest in the Midwest deposit and a 63.01% interest in the J Zone deposit on the Waterbury Lake property. Both the Midwest and J Zone deposits are located within 20 kilometres of the McClean Lake mill. 

Denison is also engaged in mine decommissioning and environmental services through its Denison Environmental Services division and is the manager of Uranium Participation Corp., a publicly traded company which invests in uranium oxide and uranium hexafluoride.

Follow Denison on Twitter @DenisonMinesCo

Cautionary Statement Regarding Forward-Looking Statements

Certain information contained in this press release constitutes "forward-looking information", within the meaning of the United States Private Securities Litigation Reform Act of 1995 and similar Canadian legislation concerning the business, operations and financial performance and condition of Denison.

Generally, these forward-looking statements can be identified by the use of forward-looking terminology such as "plans", "expects", "budget", "scheduled", "estimates", "forecasts", "intends", "anticipates", or "believes", or the negatives and/or variations of such words and phrases, or state that certain actions, events or results "may", "could", "would", "might" or "will be taken", "occur", "be achieved" or "has the potential to". In particular, this press release contains forward-looking information pertaining to the following: the likelihood of completing and benefits to be derived from corporate transactions; use of proceeds from financing activities; expectations regarding further studies on material properties, including the PFS; expectations regarding the toll milling of Cigar Lake ores; expectations regarding revenues and expenditure from operations at DES; expectations regarding Denison's ownership interests and continuity of agreements with its partners; expectations regarding the provision of management services to UPC; capital expenditure programs, estimated exploration and development expenditures and reclamation costs and Denison's share of same; and exploration, development and expansion plans and objectives and statements regarding anticipated budgets. Statements relating to "mineral reserves" or "mineral resources" are deemed to be forward-looking information, as they involve the implied assessment, based on certain estimates and assumptions that the mineral reserves and mineral resources described can be profitably produced in the future.

Forward looking statements are based on the opinions and estimates of management as of the date such statements are made, and they are subject to known and unknown risks, uncertainties and other factors that may cause the actual results, level of activity, performance or achievements of Denison to be materially different from those expressed or implied by forward-looking statements. Denison believes that the expectations reflected in this forward-looking information are reasonable but no assurance can be given that these expectations will prove to be accurate and may differ materially from those anticipated in this forward looking information. For a discussion in respect of risks and other factors that could influence forward-looking events, please refer to the factors discussed in Denison's Annual Information Form dated March 23, 2017 under the heading "Risk Factors". These factors are not, and should not be construed as being exhaustive. Accordingly, readers should not place undue reliance on forward-looking statements.

The forward-looking information contained in this press release is expressly qualified by this cautionary statement. Any forward-looking information and the assumptions made with respect thereto speaks only as of the date of this press release. Denison does not undertake any obligation to publicly update or revise any forward-looking information after the date of this press release to conform such information to actual results or to changes in Denison's expectations except as otherwise required by applicable legislation.

Cautionary Note to United States Investors Concerning Estimates of Measured, Indicated and Inferred Mineral Resources: This press release may use the terms "measured", "indicated" and "inferred" mineral resources. United States investors are advised that while such terms are recognized and required by Canadian regulations, the United States Securities and Exchange Commission does not recognize them. "Inferred mineral resources" have a great amount of uncertainty as to their existence, and as to their economic and legal feasibility. It cannot be assumed that all or any part of an inferred mineral resource will ever be upgraded to a higher category. Under Canadian rules, estimates of inferred mineral resources may not form the basis of feasibility or other economic studies. United States investors are cautioned not to assume that all or any part of measured or indicated mineral resources will ever be converted into mineral reserves. United States investors are also cautioned not to assume that all or any part of an inferred mineral resource exists, or is economically or legally mineable.

Denison Mines Corp.
David Cates
President and Chief Executive Officer
(416) 979-1991 ext. 362

Denison Mines Corp.
Sophia Shane
Investor Relations
(604) 689-7842

Comment On!

140
Upload limit is up to 1mb only
To post messages to your Socail Media account, you must first give authorization from the websites. Select the platform you wish to connect your account to CanadianInsider.com (via Easy Blurb).