🕐22.09.11 - 09:54 Uhr

POSITIVE GOLD/SILVER GRADES AND WIDTHS IDENTIFIED AT ORTACS KREMNICA PRECIOUS METALS PROJECT



Ortac Resources Ltd / Epic: OTC / Market: AIM / Sector: Mining & Exploration 22 September 2011 Ortac Resources Ltd (Ortac or the Company) Further Positive Drill Results from Kremnica Gold Project, Slovakia Ortac Resources Ltd, the AIM listed exploration and development company focussed on natural resource projects in Europe, is pleased to report additional encouraging drill results from its Šturec deposit, which is part of its Kremnica precious metals project in Central Slovakia (‘Kremnica’) further to the promising initial gold and silver assays reported from its geological exploration drilling programme. Key Points
· Best results include 144.6m @ 1.36 g/t Au and 8.85 g/t Ag from 64.4m from borehole STOR-3.9 (including 33m @ 2.46 g/t Au and 17.30 g/t Ag from 147m) and 1m @ 36 g/t Au and 189 g/t Ag from 185m from borehole STOR-3.4 · Further confidence for future conversion of Inferred resource ounces into higher Indicated and Measured categories · All holes reached targeted depth with the exception of STOR-3.4 which was prematurely terminated due to difficult drilling conditions – intention to re-drill as significant grades were encountered at the bottom of this drill hole Ortac CEO Vassilios Carellas said, “These intersections, which show positive grade and widths, further underpin the prospectivity of Kremnica for precious metals, and demonstrate the considerable additional resource potential of this asset.

Importantly, these results provide further confidence for the future conversion of the Inferred resource at Šturec, along with the geological interpretation, which in almost all of the drill holes drilled to date has been remarkably accurate.” Detailed Results These holes are a continuation of the drill programme designed to target the areas in the deposit where the resources are currently classified as Inferred.

All the holes reached their targeted depth with the exception of STOR-3.4, which was prematurely terminated just as it was entering the main ore zone due to the difficult drilling conditions encountered at that location (crush zone).
Table 1: Results to recent diamond drill programme at Kremnica Borehole From To Interval Grade Grade Grade 1 Co-ordinates Azimuth Dip ID (m) (m) (m) (g/t Au) (g/t Ag) (g/t Au Eq.) Eastings Northing STOR-3.2 90 104 14 0.99 11.01 1.21 -435761 -1229622 270 63 STOR-3.3 109 110 1 0.52 17 0.86 -435735 -1229669 270 65 114 115 1 0.7 14 0.98 118 119.5 1.5 0.64 19 1.02 123 138 15 1.06 26.07 1.58 STOR-3.4** 10 11 1 3.56 10.6 3.77 -435668 -1229719 268 65 33 34 1 0.86 0.5 0.87 38 39 1 1.05 1 1.07 98 100 2 1.47 0.75 1.48 145 146 1 1.17 21 1.59 160 161 1 0.534 19 0.91 162 164 2 3.75 109 5.93 169 169.6 0.6 0.581 15 0.88 170.3 171 0.7 0.98 15 1.28 174 176 2 1.67 57 2.81 185 186 1 36 189 39.78 193 194 1 17.65 215 21.95 STOR-3.9 47.6 48 0.4 1.19 1 1.21 -435714 -1229971 276 57 55.2 55.5 0.3 0.734 1 0.75 64.4 209 144.6 1.36 8.85 1.54 includes 73.8 84.3 10.5 2.55 5.62 2.66 87 89 2 1.33 4.9 1.43 92.6 94.6 2 0.98 101 3.00 99.7 106.8 7.1 2.60 11.59 2.83 113 120 7 1.55 11.36 1.78 124 126 2 2.82 5.9 2.94 129 132 3 0.80 7.92 0.96 134 135 1 0.83 3 0.89 137 138 1 0.91 4.3 1.00 140 142.4 2.4 0.71 4.18 0.79 145.5 146 0.5 0.89 6.5 1.02 147 180 33 2.46 17.30 2.81 182 183 1 0.54 9 0.72 184.4 185 0.6 0.724 11.1 0.95 186 193 7 1.61 13.4 1.88 199 200 2 1.95 2.7 2.00 203 204 1 0.53 4.7 0.62 208 209 1 2.95 3.8 3.03
* Interval includes voids that are a result of the historical underground mining activities and or difficult drilling conditions in the ‘crush zone’. ** Drill Hole did not reach intended depth 1 Using the Company’s long-term gold equivalency ratio of 50:1
QAQC
The reported intervals in the table above are intersecting the mineralised structures at angles of around 65º.

The DD holes were drilled with a combination of PQ (85mm core diameter), HQ (63.5 mm core diameter) and NQ (47.6 mm core diameter) size in order to be able to obtain larger sample volumes from the mineralised zones and to reach the targeted depths.
The holes are started with PQ, which is drilled as deep as the drill can drill or until the ground conditions are such that a reduction to HQ is required to further deepen the hole, which is similarly drilled as deep as the drill can drill or until the ground conditions are such that a reduction to NQ is required to further deepen the hole.

All bore holes are down hole surveyed at 30m intervals to determine constant azimuth and dip.
The core is delivered to the core shed where it is photographed with hole numbers and depths clearly visible.

The core is then logged with detailed descriptions of sample location, nature of material sampled, representative characteristics of the sample, type of lithology, alteration, structure and mineralisation, if any, recorded from the drill core.

Most of the drill core is sawed or split longitudinally with half cores sampled to geological boundaries at approximate one metre intervals.
Sampling of the core is carried out after the core has been logged.

Mineralised, altered and silicified sections of the core are sampled separately.

The sample is marked in the core box and in the sample interval book.

A sample ticket book is used to record each sample interval and to give each sample a unique identifying number.

The first part of the sample ticket book is used to record: Hole Name, Depth, From, To and any important features.

The second part of the sample interval page is stapled to the box at the start of every sample interval.

No ticket is stapled to the box for blank samples.

The third part of the sample interval page goes with the core for preparation (drying, crushing and milling/pulverising) and accompanies the sample to the Company’s independently approved sample preparation laboratory, which is equipped to treat rock and soil samples.
Assays are conducted through ALS Minerals, Romania, with gold samples being fire assayed with an Atomic Absorption finish.

Any samples with grades of over 10g/t Au are fire assayed again and finished by gravity.

The silver samples were assayed using conventional ICP-AES analysis and any grades of silver in excess of 100 g/t were re-assayed by aqua regia digestion with a AAS finish. The information in this report is based on information compiled by Mr Vassilios Carellas (who takes responsibility for the data and geological interpretation). Mr Vassilios Carellas (BSc (Hons), MAusIMM) is the Chief Executive Officer of Ortac Resources Limited and has sufficient experience relevant to the style of mineralisation and type of deposit under consideration and to the activity which he is undertaking to qualify as a Competent Person as defined under the JORC Code.

Mr Carellas consents to the inclusion in this announcement of the matters based on his information in the form and context in which it appears. **ENDS** For further information please visit www.ortacresources.com or contact: Vassilios Carellas Ortac Resources Ltd Tel: +44 (0) 20 7440 0646 Charles Wood Ortac Resources Ltd Tel: +44 (0) 20 7440 0646 Jeremy Stephenson Seymour Pierce Limited Tel: +44 (0) 20 7107 8000 Stewart Dickson Seymour Pierce Limited Tel: +44 (0) 20 7107 8000 Catherine Leftley Seymour Pierce Limited Tel: +44 (0) 20 7107 8000 Jeremy King Optiva Securities Ltd Tel: +44 (0) 20 3137 1904 Jason Robertson Optiva Securities Ltd Tel: +44 (0) 20 3137 1906 Hugo de Salis St Brides Media & Finance Ltd Tel: +44 (0) 20 7236 1177 Lottie Brocklehurst St Brides Media & Finance Ltd Tel: +44 (0) 20 7236 1177
Notes: Ortac Resources Limited is an AIM listed exploration and development company focussed on natural resource projects projects in Europe.

Its primary focus is on precious metals exploration and development within the Carpatho Balkan Metallogenic Belt, initially the Central Slovakian Volcanic Field. The Company has a current JORC compliant resource of 1.1Moz of gold equivalent from its Kremnica Gold Project in Slovakia, and a preliminary scoping study on the project is currently being finalised ahead of release in H2 2011.

The Company’s precious metals’ objective is to complete a definitive feasibility study and environmental impact assessment with a view of bringing the Kremnica Project into production for the benefit of all stakeholders. The Company’s strategy is to utilise its highly experienced board and management team and its solid foothold in Central Europe to consolidate additional precious metal development opportunities to build shareholder value. Glossary Au The chemical symbol for gold. Ag The chemical symbol for silver Aqua Regia Digestion A mixture of Hydrochloric Acid (HCI), Nitric Acid (HNO3) and de-mineralised water (2:2:2).

A strong acid digestion capable of decomposing metal salts, carbonates, sulphides, most sulphates and some oxides and silicates.

Aqua Regia will digest precious metals including Au, Ag, Pt and Pd. Atomic Absorption Finish (AAS Finish) The final stage in determining the grade of a sample by a method that measures the concentration of atoms of an element by passing light, emitted by a hollow cathode lamp of that element, through a cloud of atoms from that sample.

Only those atoms that are the same as those in the lamp will absorb the light from the lamp.

A reduction in the amount of light reaching the detector is seen as a measure of the concentration of that element in the original sample. ‘Crush Zone’ Is a highly fractured zone, initially caused by the mixing of hot hydrothermal magmatic fluids and cooler meteoric waters in combination with syn-and post-tectonic activity and further complicated by recent underground mining activities. g/t grams per tonne Gold equivalent Gold equivalent ounces include silver ounces, converted to a gold equivalent based on a ratio of 50:1. HQ The size (63.5mm core diameter) of hole in rock or other material made by a rotational and downward force, to recover a sample of the material. ICP-AES Often referred to simply as ICP, is a multi-element analysis technique that uses an inductively coupled plasma source to dissociate the sample into its constituent atoms or ions, exciting them to a level where they emit light of a characteristic wavelength.

A detector measures the intensity of the emitted light, and calculates the concentration of that particular element in the sample. Indicated Mineral Resource That part of a Mineral Resource for which tonnage, densities, shape, physical characteristics, grade and mineral content can be estimated with a reasonable level of confidence.

It is based on exploration, sampling and testing information gathered through appropriate techniques from locations such as outcrops, trenches, pits, workings and drill-holes.

The locations are too widely or inappropriately spaced to confirm geological and/or grade continuity but are spaced closely enough for continuity to be assumed. Inferred Mineral Resource That part of a Mineral Resource for which tonnage, grade and mineral content can be estimated with a low level of confidence.

It is inferred from geological evidence and assumed but not verified geological and/or grade continuity.

It is based on information gathered through appropriate techniques from locations such as outcrops, trenches, pits, workings and drill-holes which may be limited or of uncertain quality and reliability. JORC Resource Resource estimated according to the Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves, as published by the Joint Ore Reserves Committee of The Australasian Institute of Mining and Metallurgy, Australian Institute of Geoscientists and Minerals Council of Australia. m metre Measured Mineral Resource That part of a Mineral Resource for which tonnage, densities, shape, physical characteristics, grade and mineral content can be estimated with a high level of confidence.

It is basedon detailed and reliable exploration, sampling and testing information gathered through appropriate techniques from locations such as outcrops, trenches, pits, workings and drillholes.

The locations are spaced closely enough to confirm geological and grade continuity. Mineralisation The process or processes by which a mineral is introduced into a rock, resulting in a valuable or potentially valuable deposit.

It is a general term, incorporating various types; e.g., fissure filling, impregnation, and replacement. Mineralised Structure A volume of rock which contains mineralisation. NQ The size (47.6mm core diameter) of hole in rock or other material made by a rotational and downward force, to recover a cylindrical sample of the material. PQ The size (85mm core diameter) of hole in rock or other material made by a rotational and downward force, to recover a sample of the material. [cid:image001.jpg@01CC7902.C6EC6B60]



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