Kasbah Resources has announced very positive results from its second phase ore sorting test-work at the Achmmach Tin Project in Morocco. A two-tonne bulk sample of ore from the Achmmach Tin Project was subjected to a detailed ore sorting program in February, 2018. This program has delivered exceptional results which have confirmed the suitability of ore sorting technology for use in the Achmmach process plant and its ability to deliver robust improvement to the Project's economics. The results of the ore sorting program and other ongoing test-work will be included in a new Achmmach Definitive Feasibility Study scheduled to be completed in June 2018. Phase 2 Bulk Ore Sorting Test-work Phase 2 of the ore sorting test-work involved sorting two tonnes of representative ore through a full size Steinert KSS multi-sensor ore sorting machine in Perth, Western Australia. The program involved the measurement of accept/reject rates, as well as recoveries and ore grade improvement through the machine. The bulk sample comprised drill core spanning the width of known stope shapes along the strike length of the orebody, and as such was the most representative sample of planned run of mine ore that is currently available from the Achmmach deposit. Prior to the test-work being undertaken the ore was crushed and screened, with material less than 10 mm removed to represent a true ore sorter feed profile. This fines material represented 25% of the total crushed material. The coarser screened fraction was then processed through the ore sorting machine. The ore sorting utilised the DE-XRT sensor methodology with laser overlay that was successfully used to recognise the cassiterite mineralisation in the Phase 1 test-work. The results of the test-work have been aggregated to model the proposed life of mine production profile for Achmmach, and these modelled results are summarised. These assume that in a full sized plant the screened fine fraction of ore feed that bypasses the sorter is then combined with the "Accept " fraction from the ore sorter before advancing to the tin separation processes. In summary, modelling of the "Post-sort" performance indicates a 40% rejection of waste through the sorter resulting in a total reduction of almost 2 million tonnes having to be processed over the 10 year mine life. Processed head grade increases by 34% (from 0.85% to 1.14% Sn). The increased head grade delivers an associated increase in processing plant recovery, from 72.7% to 80.6% due to the higher head grade, which in turn results in great tin concentrate production. It should be noted that these predicted results are based on initial bulk ore sorting tests. Further optimisation of the sorting algorithm in production is expected to lead to further improvements in performance. Benefits of Ore Sorting to the Achmmach Project Improved ore grades into the processing plant: The average feed grade of tin ore into the processing plant will increase by 34%, with a resultant increase in recovery through the plant. Whilst 6% of the tin will be lost in reject material from the ore sorter, the improved recovery through the processing plant more than offsets these losses. Reduced throughput through the processing plant: Annual processing plant throughput will reduce from 750,000tpa to 500,000tpa, requiring less processing equipment, less water for processing, less reagents, and less power. As a result, the capital and operating costs associated with the processing plant are expected to reduce. Reduced tailings space required: As a direct result of less tonnage being treated through the processing plant, less tailings capacity will be required. Alternatively, the tailings capacity previously designed could be utilised to support a longer mine life, of 14 years rather than 10 years.