ANNEX腜A itf lu Arilll q.] g? iVL膜 膌 1 ANNEX腣B LOCAT:ON MAP OR SKETCH PLAN 菕 腟 ANNEX腜 C V YEAR WORK 3腝 PROGRAM 膜 v 腝THREE(3)YEAR COMMERCIAL OPERAT10N WORK PROGRAM 2 to 4 of Rcsumcd Opcrations) (Yc邪 TO SUPPORT APPLICAT10N FOR MINl芤 TABLE OF CONTENTS 4rE D f.菆CORPO英 l.1 Project Name Telephone, FAX Number 1.2Address, Company Name, 4 13 Contact Perstpn/Designation.腣腣腣腣 腣腣腣腣腣 腣腣腣腣腣腣腣腣腣 腣 腣腣腣腣腣腣 腣腣 腣腣 腣腣 腣腣 荃 麶.腣 2菆 PROJECrDESCRIPE膡腣腣 腣腣 腣腣 腣腣 腣腣腣 腣腣 腣腣腣腣 腣腣腣腣腣腣腣 腣腣腣腣腣腣 2.1 Project Details 4 腣 腣腣 21l L臥ation腣腣腣腣 腣腣腣腣 腣腣腣腣 腣腣腣腣腣腣 腣腣腣 腣腣腣腣腣腣腣腣 腣腣腣腣腣腣腣腣腣腣腣 腣腣 腣腣 D 腣 腣 腣腣腣腣 212 Estimated Cost腣腣腣腣腣腣腣腣腣腣腣腣 腣腣腣腣腣腣腣腣 腣腣腣腣 腣腣腣腣 腣腣腣 腣腣腣腣腣 腣 腣 5 腣 腣腣腣 腣腣 2121 Capital Cost腣腣腣腣腣 腣腣腣腣 腣腣腣腣 腣腣腣腣 腣腣腣 腣腣腣腣腣腣腣 腣腣腣腣腣腣 腣腣腣 6 腣腣 腣腣腣 腣腣腣 2122 0perating Cost腣腣腣腣腣腣腣腣腣 腣腣腣腣腣腣 腣腣腣 腣腣腣腣 腣腣腣腣腣 腣腣腣腣 腣腣 7 腣腣 腣腣腣 腣腣腣腣 213 Commodity腣腣腣 腣腣腣 腣腣腣 腣腣腣腣 腣腣腣腣腣腣腣腣腣腣腣腣腣 腣腣腣腣腣腣腣 腣腣 腣腣 腝 29 腣 i. L l.I l)roduction SlhcJttlc...... 腣 31 3.1.1.2 ManpowerRequirement 腣腣腣 31 腣腣腣 312 Camcn UG Lin l 32 腣 312! Ore Hauling腣腣腣腣 腣腣腣腣 腣腣腣腣 腣腣腣腣 腣腣腣腣腣腣腣 腣腣 腣腣腣腣腣腣腣腣腣腣 腣腣腣腣 腣腣 3膡 3 122 Production Schcdulc 415 Child Welrarc(Day Care Ccnters) 35 New Operations.腣 Economic Project腝 4.2 Proposed Socio腜腅 腣 腣腣腣腣腣腣腣 腣腣腣腣腣 腣腣 腣腣 MArE.腣J6 ESE膡 腒ND膌RO腵ECrfar cOs膌 ZGEMENr葉 菇 MA荭 ]V/JRONM]V葉 ,菆 腣 37 .腣 V腖 膍0膌REP4RED rfrE%ORK PROGR/4膍 RE OF rrff PERs莿 SfttAr菒 腣 `菆 V Page 3 of37 pora腡 on AJas Consoldaled Min ng&Development Co腵 EAR COMMERCIAL OPERAT10N WORK PROGRAM THREE荃 1.O CORPORATE DATA Project Name Carmen Mining Projcct FAX Number 1.2Address, Telephone, Company Name, Atlas Consolidated Mining and Development Corporation V MININ6 DATE DOL AREA NAME LEASE CONTRACT CLAIMOVVNER RECISTERED OF CLAIMS (HAS) ISSUED NUMBER 腝 Apr 7.1976 Mavll 1953V-1117 90000 Patdo腜 腜 腜腝 do腝 do腝 腶u111.1953 90000 do腝 Nonq 腝 腝 腝do腝 do腝 49555腶u1 13.1953 do腝 Rom Fr. 腝 腜腝 do腝 do腜 Auq 7,1953 31948 do腝 Sol Fr TOTAL= 119 1663 Has greemenf賻 ACMDC O MIntrg Clalms trnder荘 荖 TOTA L= 115 1212 Has 腜 119 1663 Has Mining Claims owned by ACMDC V 腝 腣腣腣 115 1212 Has M n ng Claims under Agreement with ACMDC腜 234 2875 Has Total Area = Attachcd is a Skctch l'lan ol'Mining Claims covorcd by Mining l.casc Contracts showing Camten Mining Area marked as Annex No. l. 2.1.2 Estimated Cost 2.1.2.1 Capital Cost The rehabilitation period of the mines will be the first twenty-iive (25) months of project life. All capital costs relevant to the rehabilitation and resumption of operations is covered within the first two years of project lil'e. Total initial capital cost is PhP 9,715,490,000.00 or US$176.645 million based on PhP55:US$l exchange rate. Said amount covers all phases of rehabilitation; Mine Dewatering Cost, Reconditioning of Equipnrent, of the Underground Openings and others required to be done to enable the mine to produce an initial 1,000 M'[PD on the lTth month. This pruduction will gradually be increased to 42,000 MTPD in month 2 of year 4 when the new decline conveyor system shall have been operational. l'able below shows the summary of initial capital expenditures. (PhP in 000,000) USSl:PhP55 I 荨orcx腜 Notes: 32腝 2 Power:Month l腝 A腡 as COnsolidated M ning&Development Corporalon THREE腝YEAR COMMERC AL OPERAT10N WORK PROGRAM \-, 2.1.3 Commodit-v Copper, Gold and other mineral deposits found therein 2.1.4. Present Status ofthe Project (e.g. Rehabilitation and Operation Stage) The Carmen Orebody, covered by Mining Lease Contract Nos. LLC-V-261, V-l17, V-l080, V-l081, MRD-I8 and MRD-80 has been in operation from 1977 by Open Pit Mining and from 1988 up to early part of 1994 by Underground Mining when ACMDC suspended its mining operation primarily because of a "muckrush" in the underground mine. The "muckrush" was the consequence ol a typhoon that flooded the open pit operations combined with lack ol' proper backllll materials fbr the underground subsidence area at the tloor of Carmen Pit. In addition, fbr fbur years prior to the suspension of copper production (1989 to 1993) the company was already experiencing financial difficulty, which affected cenain operational priorities-aggravated by relatively low price of copper at that time. Ore reserves at the time of the suspension were eStimated to be some 881 million metric tormes at a grade of 0.41%o copper containing some 7.9 billion pounds ofcopper and 5 million ounces ofgold' ln July 1997, Minoro Mining and Exploration Corporation (Minoro) entered into an agreement to buy out the major creditors of Atlas in cxcheurge fbr a nrajority equity interest in the oompany. Minoro then conrplcted a rnine t'easibility study, which indicated that thc project was tcchnically and economically viable. However, lbr one reason or another, Minoro failed to proceed with the reopening of the mines. In October 2000, Atlas again entered into a debt-for-equity agreement with Alakor Corporation (Alakor), a Filipino company headed by one of Atlas' Board of Directors, Mr. Alfredo Ramos. Alakor eventually secured the majority shareholding of Atlas and on March 31' 2003, Mr. Alfiedo Ramos was elected as President and Chairman of the Board. 2.1.5 Description of Mining Method 2.1.5.1 Open Pit Mining (South Carmen Pit) Mining of South Carmen Pit will be started on the seventh month from the resumption of operations, by waste stripping at a rate of 38,000 MTPD. Basically, the first stage in any open pit mining is designing the pit plans based on the ore reserve blocked-out by mapping, outcrop sampling and diamond drilling. Actual mining operations consist of stripping the overburden until the ore is exposed, then the following sequence ofevents is unde(aken: a. Rotary drill-hole stakes are established at the top bench based on drill pattem prepared by pit planning engineers. Atlas Consolidated Mining & Developmenl Corporation Page 7 of 37 THREE.YEAR COMMERCIAT OPEMTION WORK PROGMM b. Blast holes are drilled using electric rotary drills at 18-meter depth including the three meter sub-grade to ensure good fragmentation and eliminate hard toes. Sample cuttings are taken from every drill hole for laboratory analysis. 'fhe blasting crew will load the holes with explosives, and blast. Boundary contact between ore and waste is delineated after blasting using the ore situation map. f. PCI600SP Komatsu Backhoe loads the malerials to the haul trucks. and g. The haul trucks transport the ore to the Carmen Concentrator's Primary Crusher, and the waste rocks to the underground subsidence area as backfilling materials. South Carmen Pit is a small portion of the Greater Carmen Pit' It is located at the hanging wall side of the Carmen Orebody, which is at the southem section ofthe Greater Carmen Pit. The excavation (ore and waste extraction) is confined only within the 25.20 hectares surface area, which delines the pit limit of South Carmen Pit Mining PIan. Excavation will start liom the upper benches at 8+465 and progress do\lnwards 8+165 involving twcnty-onc (21) mining levels or benches of l5 mctcrs height interval. At the start ol mining operations, access of pit equipment in going to 8+465, the uppermost mining level of South Carmen Pit will be at the existing drainage berm at Carmen hanging wall with entry point at the junction of the drainage berm and H.E.-Biga Pit road at level +483 meter elevation. Initially, the pit equipment will either be travelled or transported in trailer-carrier to the drop-off point at level +483 m. elevation via the existing Carmen H.E. to Biga Pit road. South Carmen Pit Desien Parameters/Activitics: Designetl Slopes and Bench Dimensions The designed slopes and bench dimensions lor the South Carmen Pit are shown below in Table No.3. Table No. 3, South Carmen Pit Design Parameters VALUE PARAMETER 50膋 a) Back/overall slope (75%o) 52膋 b) Gypsiferrous Zone c) Non Glpsilerrous Zone (25o/o) 450 65膋 d) Bank/Bench slope o) Mining l]cnch hcight I 5 metcrs I) Irinal Be nch Hcight 30 mcters (doublc benching with pre-split holes) Atlas Consolidated Mining & Development Corporation Page 8 of 37 THREE.YEAR COMMERCIAL OPER,qTION WORK PROGMM 腡腁vidthI 4 meters 膡) BCnCh/bC腡 h) Minimum haul road Width 30 meters i) Minimum Road Curve Radius 70 meters Maximum ramp gradicnt 8荣6 050-10% h) Drainage Gradient Since most of the South Carmen Pit wall are competent with fractues mostly in-filled with gypsum and some quartz, which healed the fissures, the pit slope within the sulfate zone is designed at 52o with the application of double -benching and smooth wall blasting with pre-split holes. The ore is located within the gypsiferrous zone; therefore ore mining has been maximized resulting in a lower waste to ore ratio. Except for some possible looalized minor wedge block/bench failures, no large-scale circular slope f'ailures are expected as the fault structues in this area are mostly steeply dipping. With the application of double benching technique, the corresponding berm width is also doubled from the usual seven meters wide for a normal l5-meter bench height, to 14 meters wide. This relatively wide berm is designed to accommodate rock debris in case of localized/minor bench failures. At the start ol mining operations, access of pit equipment in going to 8+465, the uppermost mining level of South Carmen Pit will be at the existing drainage berm at Carmen hanging wall with entry point at the junction of the drainage berm and H.E.-Biga Pit road at level +483 meter elevation. Initially. the pit equipment will either be travelled or transported in trailer-carrier to the drop-off point at level +483 m. elevation via the existing Carmen H.E. to Biga Pit road. Road and Ramps All haul roads and ramps have minimum widths ol 30 meters and a minimum curve radius of 70 meters to accommodate double passage of the existing [ 70-tonne hauling trucks. Maximum grade for the ramps is 870 whilst working berms have a gradient of 0.5%o to 1.0Yo for drainage purposes. ine Drainage Dewalering/M Excessive water is a direct cause of many drainage problems both in the open pit and underground mines. A comprehensive mine drainage plan and design is therelore necessary to prevent the extra costs and production losses brought about by excessive water and drainage failures. Carmen Pit is served by the +183 Drain Adit, which connects to the Sigpit- Biga Drain Tunnel, a dewatering tunnel purposely driven to drain water a both Biga and Carmen Pits. However, the +183 Drain Adit, is no longer serviceable at present condition as it is already covered with slide materials coming from Carmen North Slide that occurred on November 7, 2001 at the height ofqphoon "Nanang". The existing peripheral drainage that was constructed to dive( the water coming liom the limestone area above the proposed south Carmen Pil drains the surface run-off water towards Ilag River at the South. The said Consolidated Mining & Development Corporation Page 9 of 37 Atlas THREE-YEAR COMMERCIAL OPEMTION WORK PROGMM drainage had helped preserve the pit walls over the years. Hence, pit walls within the mineralized metavolcanics at the southern hanging wall side of Carmcn Pit are still intact and standing. The bottom of Carmen Pit, most particularly at the south-end portion is submerged in ponded water up to +238.00 meter elevation. Dewatering of the said water pond is essential for the south Carmen Pit and the Carmen Underground mining operations in order to mine the open pit ore down to B+ 195 and to recover the exhaust ventilation raise, respectively. Minc dcwatering will be carried out by pumping the water outside the pit ands discharge at the through-cut at elevation +343 mcters using a submcrsiblc pump installed at the pit bottom. Sinoe the +183 drain adit at the north is no longer serviceable, a new adit will be driven at elev. +'194 m. to intersect Sigpit-Biga Drain Tunnel at elev. +l14.37 m. Drilling and Blasting o Drilling The present pit drilling equipment at the mines consists of two (2) D55SP engine-driven Tamrock Drills. These are large diameter rotary drills intended for drilling blast holes using a 10.0-inch diameter tricone tungsten carbide drill bit. The Tamrock drill during its peak performance registcrcd an average output of400 meter or more than 20 blast holes per day. Dritling pattem and spacing lbr blast holes varies tiom six meters by eight meters for hard formalion, where good fragmentation is required. Up to eight meters by eleven meters for softer formations where only toe breaking is required. Blast holes are usually drilled to an l8-meter depth, including the three-meter sub-grade, to ensure god fragmentation and eliminate hard toes. Drill cuttings in each blast hole will be collected down to 15 meters depth for assaying of copper values for grade control purposes. V o Blasting Explosives commonly used, as charges are ANFO and cartridge ol primer and dotonator. For totally dry holes, ANF-O is poured directly f'rom the ANFO mixing truck into the holes after the down and trunk lines are laid together with the primers and detonating tuses. All downlines are doubled to safeguard against costly and dangerous misfires. In the case of watery holes, the water is pumped out first using a submersible pump before the ANFO, bagged in polyethylene tubes is loaded into the blast holes. For holes with high water seepage, either deck loading is applied, with slurry as bottom loads and bagged ANFO at top loads, or all slurry load is applied. 2.1.5.2 llnderground Mining (Carmen UG LiIt-l) The underground mining at Carmen Lift I is by the full-gravity block caving method. The system is long practiced and well established at Atlas' Cebu copper operations. DAS underground Litls I :rnd 2 wcrc mined using the same method and, as such. the Atlas personnel who are Page 10 o腵葁 on AuaS COnso ldated Mining&Devdopment CorporaEAR COMMERCIAL OPERAT10N WORK PROGRAM THREE荍 still available are regarded as highly experienced and technically capable in applying the system. As shown in Annex No.2 block caving involves the development ol'the haulage, grizzly and undercut levels as well as transfer and draw- raises that interconnect the three levels. Caving of the block is induced through blasting a six (6)-meter slice of the ore column at the undercut level. After the pillar is removed, the ore column becomes unstable and starts to cave or fall down by gravity. The broken ore is then drawn at controlled rates through the draw points and coursed to the haulage level via transfer raises. Annex No. 3 and Annex No. 4 show the layout sketches of these arrangements. ln the Carmen Lift I set-up, the ore from the transfer raises will be collected by trains each consisting of 12 bottom-dump cars having 15- tonne capacity. The trains are pulled each by a 20-tonne Goodman locomotive powered by two 100-HP motors. The ore is then tipped into any ol'the twin ore-passes that connect to a chamber containing two gyratory crushers (30-inch by 70-inch and 30-inch by 60-inch), which perform size reduction. Finally, the crushed ore are transported to the surface via a 42-inch wide conveyor having a design capacity of 2,100 tonnes per hour. The Carmen Lift I Orebody is divided into 16 panels, all of which have equal width of 59 meters. Their lengths vary between 120 and 310 meters. and most panels are longer at the mid- section of the Orebody. The heights ofthe ore columns vary between 160 and 335 meters, the lowest ol which are the southem units located directly below the open pit base. The height ofthe ore columns increases as they extend towards the north away from the open pit. 2.1.6. Estimatcd Daily/Annual Production )nuwn rn iabie No.4 below is the summarv ol' produotion fbrecast liom the combined South Carmen Pit and the Carmen Underground Lift-l Orebody covering a period three years (years 2 to 4). South Carmen Pit will starl ore production by Month- l of year-2 al 10,000 MTPD while Mine Underground ore production stafls at a rate of I ,000 MTPD in Month 5 of year-2 to consist purely of development ore. 'l'he ore tonnage tiom dcvelopment will incrcasc to 5.000 MTPD in Month l0 ol'Ycar-2 as nlore arcas are being developed. Once the decline and overland conveyors are commissioned, underground ore deliveries will start at 12,100 MTPD on the second month of Year-3 and gradually increases until it reaches its production peak of 42.000 MTPD in Month 2 of Year-4. Table No.4. Summary olthe South Carmen Pit and Carmen Underground Lift I Production Plan (3-year pcriod, Years 2 to 4) YEAR 腃 TOTAL 裪 3 4 15,163,42032,710,020 11.811.400 5,735,200 Tonnes Per Year per 30,161 32.66741,900 15,917 Tonnes Day Grade, % Cu. 0.33 o.44 o.47 0.43 96.914.321136.126.694265,671,529 32.636,514 Lbs Cu Atlas Consolidated Mining & Development Corporatjon Page I I of37 THREE.YEAR COMMERCIAL OPEMTION WORK PROGMM 2.1,7 Description of Process, Plant/Mill (rated capacity, type of proccssing) 'Ihe ore from the South Carmen Pit and Carmen Underground Lift- I will bc processed at Carmen Concentrator. Milling will start on month- l6 at 10,300 MTPD. This will gradually increase to 42,000 MTPD in the early part ol Year-4 at which time shaft hoisting will have been completely replaced by the new decline conveyor system. 2.1.7.1 Rated Capacity l;ull milling capacity ot' Carmen Conccntrator (CAI{CON) is 42.000 M'tPI-) 2.1.7.2 Type of Processing Primary Crushing Primary crushing of run-of-mine ore will be carried out through a 30-inch x 60-inch Traylor gyratory crusher driven by a 200-HP motor, and a 30-inch by 70-inch Kobe Allis Chalmers gyratory crusher driven by a 400-Hpp motor. Each circuit will be composed of two 3,000-metric ton capacity ore bins, a 72-inch wide SACO pan feeder for the grizzly feed, a 48-inch SACO pan feeder for the crusher product, a stationary grizzly belbrc thc crushcr with two- inch / tbur-inch slots. and a product chutc. Crushed ore will be fed into a common 21 34 mm wide picking conveyor, where tramp materials will be taken out. From this point, ore will be transported towards the coarse ore stockpile through the decline tunnel conveyor #l (1067 mm wide by 1,800 meters long), overland conveyor #2 (1067 mm wide by 440 metcrs long) and overland conveyor #3 (1067 mm wide by 600 meters long). Conveyor #l will be driven by two 1,340 HP motors while conveyor #2 and conveyor #3 will each be driven by two 1,000 HP motors. The coarse ore stockpile will have a capacity of 120,000 metric tons (live capacity will be 90,000 metric tons). Screening and Secondary/Tertiary Crushing Ore will be drawn from the coarse ore stockpile by eight-belt feeders (each l2l9 mm wide by 5.5 m. long) feeding five conveyors (each 1067 mm wide by 78 m. long) which in tum will feed five double-decked vibrating screens (each 2.4 m. wide by 6 m. long). The upper decks will be rubberized with 38-mm square apertures while the lower decks will have wire cloths with slots measuring 12.7 mm wide by 102 mm long. Each belt t'eeder will be driven by 30-HP variable-speed motor while 50-HP tixed speed motors will drive the feed conveyors and screens. The oversize ofthe upper and lower deck screens will go to a 700- metric ton surge bin where it will be drawn by three belt feeders (each measuring l2l9 mm wide by 5.5 m. long) towards three 1084 Hydrocone secondary crushers that will be set at a 15- to 2S-millimeter closed side setting and driven by 500-HP motors. The crusher product will be transported to the screening plant by conveyor #3 (1372 mm wide by 537 Atlas Consolidaled Mining & Developmenl Corporalion Page l2 of l? THREE.YEAR COMMERCIAT OPEMTION WORK PROGRAM m. long in size). The undersize ofthe primary screens will go to conveyor #4 (1067 mm wide by 354 m. long in size). From conveyor #3, tripper car #2 will distribute the ore to the screening plant's 4,000+on capacity bin. The ore will be then drawn through ten belt feeders, each measuring 2lf4 mm wide by 3.7 m. long, towards 1en single-decked vibrating screens, each having 2.44 m. wide by 6 m. long dimension. Through conveyor #6 (1219 mm wide by 530 m. long), the oversize of the screens will be transpo(ed and distributed by tripper car #l to the 2,000-ton tertiary crusher bin where it will be drawn by six belt feeders (each l2l9 mm wide by I I m. long) towards five Hydrocone crushers and a seven-foot Symons cone crusher. The crushers will be set at 8- to l2-millimeter closed side setting. The tertiary crusher product will retum to the screening plant through conveyor #3 together with the secondary crusher products. 'fhe screening plant's undersize will be handled by conveyor #5 ( l2l 9 mm wide by 192 m. long). Together with the primary screen undersize of conveyor #4, both will be received by conveyor #7A (1219 mm wide by 177 rn. long) which in tum will feed conveyor #7B (1219 mm wr30%Draw The drawpoint sampling procedure to be practiced at Carmen underground mine is as lbllows: a) Sunrpling is to bc madc only during the first shill: b) 'l wo sanrplcs arc to be obtaincd liom the l'resh nruck; c) 1'hree unbiased samples are to be taken from a draw point suspected of dilution; and d) Regular sampling is to be taken at the intervals shown in Table No.14' Table No. 14. Recommended Sampling lntervals 7" Extraction Number of Draws Inten'al Equivalent Per Sample (metcrs) Tonnes 腌 艏 800 19 0-750/0 苂 艣 120 76-80%l 腃 艓 80 81-100%05 l 41 Abovc 100%03 3.1.2.1 Ore Hauling Ore hauling of the projected 42,000 tonnes per day requires a rolling stock of 15 trains to operate three (3) shifts per day. This train fleet size was determined based on the lollowing assumptions: a) A train cycle time ofone per hour, based on the actual time-and-motion study carried-out for the Carmen underground mine in October 1992; b) Twelve cars allocated per train; c) A car load capacity of 12.75 tonnes; d) A six-hour shift utilization (75oh); urd c) Three schcduled shiflts per day. Atlas Consolidated Mining & Development Corporation Page 32 of 37 THREE.YEAR COMMERCIAL OPEMTION WORK PROGMM 'l'he cstimated labor strength to crew the haulage operation is 176 men to compose ol' locomotive drivers, car loaders/blasters, ore pass tenders, haulage cleaners, train dispatchers and the utility crew. 3. 1.2.2 Production Schedule The following paftlmeters form the basis for the preparation of Carmen mine's underground production plan: a) A production rate of 42,000 MTPD; b) 'l'he milling and mining operations scheduled for 362 days per year (allowing for 3 days of preventive maintenance work); c) The rates of draw is outlined in Table No. I l; d) 95% availability of the draw points allowing for various support and other grizzly maintenance work to take place; e) A material specific gravity of 2.70 metric tons per cubic meter, 0 A conservative grade tbctor of 0.95 based on historical data lrom 19 ycars of DAS Lift I block caving operations (ret'er to Table No. l5 and Annex No. l5): g) A reserve recovery fbrecast of 100%; and h) A cut-off grade of 0.30% copper. The homogeneity of grade distribution throughout the orebody, the reduction ol' waste overburden fbllowing the open pit mining operation, the geometry, and thc operating conditions of the DAS Lill I orebody have strong similarities with Carmen's Lift I ore blocks. At 97.7yo exlraction from DAS Lifi I orebdy, the metal extraction achieved was 94.6%o. For this reason, an empirical gmde correction factor of 0.95 has been introduced in the Carmen orebody's grade forecasts. Shown in Table No. 16 is the summary of production forecast from the Carmen Underground Lifi-l orebody covering a period of more than 10 years. This prognm dictates that copper ore production at a rate of 1,000 MTPD will start in Month 5 ofthe second year to consist purely of development ore. The ore tonnage from development will increase to 5,000 MTPD in Month l0 of Year-2 as more areas are being developed. Once the decline and overland conveyors are commissioned, underground ore deliveries will start at 12,100 MTPD on the second month ol Year-3 and gradually increases until it reaches its production peak of 42,000 MTPD in Month 2 of Year-4, when the 84 lines are fully developed at panels 7, 8, 9, 10, I I and 12. The undercutting schedule is shown in A|INEX No. 16. 3. 1. 2.3 Manpowe r Req uirements The Underground Mining organization will be headed by a Group Manager. Itcsponsiblc to thc Group Manager will bc lbur Dcpartment Mzuragcrs of development. produclion, underground services and underground engineering. The divisional organization chart is shown in ANNEX No. 17. Once the nrine is brought to its full production capacity, approximately 1,544 men will be required as summarized and broken down below in Tsble No. 17. This manning lcvel will be built up through the rehabilitation phase as shown in the manning schedule outlined in Table No. 18. Atlas Consolidated Mining & Development Corporation Page 33 of 37 THREE-YEAR COMMERCIAL OPEMTION WORK PROGMM Table No. l7: Summary oi Underground Mining Labor Requirements Department Number of Personnel Group Manager 1 Mine Production and DeveloPment t,tf2 Mine Engineering 46 Underground Services 306 Mine Logistics, Mine 59 Administration and Supply 1,544 Total DEVELOPMENT PROGRAMS 4.O COMMUNIT菁 The thrust of economic and social development in the country today is heavily geared towards the alleviation of poverty thal will eventually lead to the upliftment of depressed communities. This goal has not only become a responsibility of the govemment but also the commitment of private entities that believe they have a social obligation to fulfil and the necessary resources to cater to the needs ofthe rural folks. Atlas, ever cognizant of this responsibility, had initiated as early as 1970 a comprehensive community development and socio-economic assistance program within the Barangay and rural communities under the area of influence of its mining operations. It created a separate Community Development department, the purpose of which was to establish and maintain good and harmonious relations with the community people within Atlas' scope of operation. This was cllbctively carried out through technical and financial ussisluncc to rurul groups in planning and inrplcnrcnting incornc-gcncrating pnriccts and activities. After almost two decades of working lbr and with the rural people in a self-reliant approach, Atlas had accumulated vast experiences in the field of community development that will be important and essential in reinstalling some, if not all, of the more effective projects in the revived operation. 4.1Projects Previous Atlas Socio-Economic The previous Atlas Socio-Economic Projects have the following general components: 4.1.1 Malubog Area Development Projects, consisting of: Malubog Farmers Cooperalive Farm Credit Assistance ' Work Animal Loan Tractor Services Com Mill Swine Dispersal Malubog Dam Fish Stocking Barrio Hall Construction Matubog Spring Development Community Chapel and Barrio Schools Farm Management Office and Warehouse Integrated Barrio Health Plan Fish Farming Vegeuble Raising Atlas Consolidated Mining & oevelopmenl Corporatioo Page 34 of 37 THREE.YEAR COMMERCIALOPERATION WORK PROGMM 荖 Rope Making Kasoy Chapel Malubog Skills Training 4.1.2 Poog Socio-Economic Project Cattle Fattening Shoe Making Doormat and Flowerpot Making Broiler Meat Production Egg Laying Project Swine Raising Duck and Turkey Raising Atlas Farmers Association 4.1.3 Don Andres Soriano (DAS) Cottage lndustries Fumiture, Woodstripping and Firewood Projects Tripod-Coupler Project Rubber Component Project Mini-Bake Shop [,oom Weaving Clove Making Paper Bag Making Leatherette Bag Making Upholstery 4.1.4 Atlas 4-H Clubs Association 4.1.5 Child Welfare (Day Care Centers) Program Since these projects were intimately linked to Atlas and dependent upon it, particularly, for financial and technical supports and, more importantly, as consumer for their products, the prolonged suspension of the mining operations has had a fatal domino effect on the viability and sustainability of most of these projects. Except for the cooperatives, fish farms and a tbw of the self-supporting cottage industries like shoemaking, fumiture making and poultry raising, the rest of the affected projects have now fblded up or remained dormant. 4.2 ProposedSocio-EconomicProjectrNewOperations Should Atlas resume its suspended operations, albeit on a scaled-down production level, it will adopt the same approach to the rural development issue as before. However, it will support only selected community development and livelihood projects that it finds to be viable, have a broad-based community acceptance, capable of being selfl-sustained, could supply the company material needs, and require a minimal post-mining maintenance on the part of the company. A腡 as Conso腡daled Mining&Development Corporalon Page 35 of37 THREE菁 EAR COMMERCIAL OPERAT10N WORK PROCRAM 87604 13025317 80985 /膜of Camp Houses 93100膋 0767 0443 01770147 9420%of Reforestation 10 Socio腝Economic Development Assistance 68604 27531 410730000 101100%Domestic VVater Supply 9879 1 1866680 2013 ities 10250%Hospital Fac腡 1253 0578 0000 0675 10350%Recreational Facilities ll Environmental Monitoring 1986 0661 06640661 ll l100%Environmental Montonng 01000100 0000 ings Fee0000 l12100%Mine VVaste Ta腡 5600 5600 00000000 l13100%Mines Rehab Fund(MRF) 1,817387 249829 142749 1,424809 TOTAL(PhP) By: 腁 芵 腅 腜 LIST OF ANNEXES MP腧 膍 芢 mc 腜 腧 腝 7腅 腌 腅 腜腜 腜 l'腍 |腅 1腌| 腣 F=臊 r-1 \r , 覺酸 t ^Ps. $C.)c 腃艐腝 陭 艳 腍 ~腝 膡 =腅V_ 艩 f l(1膡 腒 腅 艠 膌 膁 膌 膌 |. 腵裪貹 腒腝膁腜 P3-腝 l)腂 臥 腅 腧腅 裪 ACMOC 5r\n{o ct^ls orriJEo ,Y acarrc 0 [ **1 omr .c.a q u-(:.ux, EFI rrmg cr*- .o.,.d Dr.tc.v, t r ! ; 艰腅 Srao cuas ur,roEe rtRE€r€}lI r4rH r IrB cr4u .&r!d ^c 芑腅 tY Lra E !cr! 腃 rrbg cEmr . Gc, !v LlL . y, r or I 腅 3,,03 2SA腜腒 腒 llrl. Ctrn. c{ruc br tnc. ! r AO腧0膜 腅轜 腧腧 *n cr*r. .,'fd !t rFcr 菄腒 9 a, 腫 腎 膬 裪 芁 saar c.@n op$ ,i 裪裪 c-nr.o rnd.,9D{.d !+ ! ANNEX N0 1 腝 V ANNEX NO.2 V 陭膽 膛 膄芭 荒 艮 艹 裪臥 葙 荒膛 荇臤腩 荧荲 葙 臤陭觱 膃荒莰 芍腀 腧艹 裪腀 葙臤 臤艹 裪芭艮 裪 臥臤 艹 陭葙 艹莰 裪 裪腚艏 臥腪腀 膄腀 膄腀 芭腀 臥腀 膿腀 芡腀 葙腀 臤腀 裪莍腩 芭讧荒 膃 臥艏 葙臤 腶腀 臤腚 艹荧腀 芭荧 臥艮 陭艹 腀腪 腀 腝腀 苟腄 艹艮 艷 趑 艹 艹 芭 膜腀腃芹 芉膡 膜 腤 膥 膥 陭 膽 膛 膄 芭 艩 葙 臤 裪 芭 苉 陭腩 艹臤 裪臥 腚葙 邪陭 膄觱 膄莰 芭腀 臥艹 艏裪腀 腧艹臤 艹艮 臥裪臤 葙艹 荧葙 荧莰 芭裪 膿 艫腪 腀 艮腀 艹腀 荒腀 艩腀 裪腀 臥葙腩 膿荒 陭膃艮 膽臤 艏腀 臥腚 葙荧 艮腀 荧艮 艹艹 膽腪 腀 腀 腒 艏腄 膆 艷 葚 膆 膆 芭 膥 V 艭 腟 GPD 17 腜 腟 腜 GPD 16 -腜 -腜 GP0 16 腜 腒 芲 -G"14 / CPD 13 -腜 艥腏 腒 裪 芔膖 艫膬 艒 艒 裪膡 臥 腃 裪 G" 腬 腀 艘 腀 花 腀 花 艘 腶 苆艭 艭 花 艏 腜腜腜腜 腟G葟 膡荨 花 艏 艑 CPD 7 腀 裪 腒 -CPD 0 Y ORIFrs OR ti苠 腞艒腩 腒 腜腜 GPD 6 裪 腜 裪 鏱膖 / 腒 裪莅 荧 艫 膡 雮 苉 腺 腟 艧 艐 荜 膖 花 腶  腒艭 腒 裪 膬 花 腪 腟 芏 膡 腒 裪 tt艱 ll芠 腟 腟 腁腒 荗 LEGENDi 4龩 躥 腔腁 LLARBLOCKS m腁/ 鏺 膡 膡膡 YEAR 2 EXHAuSI VENT RNSE / 膡I YEAR3 膡 YEAR 4 :~~l YEAR5 莈 YEAR 6 讧 i l YEAR7 X 膡 YEAR 3 膡 鏺 YEAR 9 膡 YEAR 10 膡 ANNEX NO.6 膠 DEVELOPED AREAS CHEDULE  迢鋻 陜 顭 鞅鞲i腒諂芫 钘 V H9010 HPD 16A HPD 19 腒 HPD l菊 H葟,4B / 14A 腟 H膇 莊 HPD 13B ,荦 HPD 13A 芲 腟  HP0 118 葙 HPD llA 艮 芭荒 HPD 10 膽 膅 A HPO,膜 裪 艑 HP0 9B 荲 艣 陭 HP0 9A 葙 荲 HPD 3B HP0 3A HP0 7B HP0 7荮 HPD eB HPD SA CFUSHER CIIAI{8EA -'-- H,O SB HPD 5荮 膜 HPO HP0 4A HPO " HPD 3A HP0 2B H D 2A HPD lB Hm,A HPD OB HPD OA LEGEND: 膡 YEAR l V 膡 YEAR 2 膡 YEAR 3 膡 YEAR 4 膠 YEAR 5 REMIXER STAT10N 膡 YEAR 6 L_腶 YEAR 7 膡 YEAR 8 YEAR 9 觠 膡 YEAR 10 [鏱] DEVELOPED AREAS ANNEX NO.7 腒荌scHEDULE 芹賎 3賃 菒芫ig19轑 {閁 ]酝 8賶5U菌 (NOT TO SCALE) 膥 荽 艏 腪 腃 莆 艏 陭 艭 腀 苤 腀 膥 腀 艮 腝 膽 艫 荒 芭 膜陭 荧 艏 芷 腅 膜 裪 艏艏 陭 腊 裪 艑膍花苉腧 艹 芒 莍 芭苄賻 腃 菖 芭 艫 莓 膄膄 莈 腀 艫 腀 艭 艏 艳 鏺 膡鏺鏺 艑 艫 裪 鎯 膡艧鎯 荧 趑 膡鏺趑 荧 芒 荒 腃 艏 腝 膜 臥 葙膜 裪 裪 荽裪艮 艑 腪 腧苉腧艢 苂 腃 芭荃芭芭 芕莍賻莊 腀腩 莿 膄膄膄莓腃 膬 陭 陭艭 艏 艫腃荒 腝 荒腪 艫 膡膡膡膡 腃腀 膜荒葙 膡膡膡膡 艑膄 膇 葙 腃 苂荒 艢 膡膡膡膡 腀 艏荧苂 臥艏 臥 陭 艏艶 臥膜 腅 艑 艫 葙苂 莌 苨 膜 臤艸 艹 裪 艸艏 腝 艏艏 膽 艏荒 艫 荒膜 膜膜 艹 芕葙腃腨 腥艩腧芵 葙 艫芭芭芭 苟 艮芕艩芕 膬 芭臤膄莁 腃 莿 艢 芭 艏 艏 鏺膡鏺膡 腅 腃 膁膡膁膡 膇 花 鏺膡鏺膡 腄 艮 艏 艹 腃 艷 艫 葙 艹 艭 艹 腝 芭 艫 芒 腃 莆 腀 腀 艏 腝 艫 腍 : : V 腪 腮 荒 苂 腨艏 膬艏 臤 艏 膬 莍 荧 苂 葙艏 艑花 艏葙 膜 芢膬 腶苭 裪 荒膜 裪艑 膬腧 苂膬 艏艮 腶艥 艮荱 艫芄 葙膜芭 艑腶 苂葙 艫 膬腸 芕腺 膬艏 苚艏 芭膜荒 艏 腀腅 裪 艘荰 膬 艷腮 艹 艹 芭 V V /1 F |_ 腌 荃 ANNEX N0 11腝 莳 膇 葟 膇 ||| 腒 膇 腵 膇 腵 膇 I腜 艭 膇 膇 芯 讧 裪 莈 芭 膇 腣腵 腚 膜 裪 葙 膇 臥 荧 膄 艮 陭 艮 膜 荒 裪 艭 莰 艫 艫 荧 腣 膇 芏 陭 陭 裪 艭 芏 艔 腔 艫 芏 裪 裪 荧 艏 芢 腄 腚 腚 艫 莍 臥 芸 腚 腚 陭 腚 膇 | | 艮 J艮腄艮腄 艭 莰 艭 艭 芏 LL 膇 芏 艭 芏 4膣 腒 艫 艕 艭 艫 裪 腶 膇 艭 艨 腶 艭 鍼 腪 艮 鍼 腅 艢 艭 腚 芒 鍼 艔 裪 || 苉 腚 腚 1 膡_ 裪 腚 芭 腚 膇 芒 腄 葙 裪 艭 荒讧 膄 陭 讧 芷 ||||| 莳 艮 艮 芷 艫 艢 苤 腅 艥 腝 苉 芷 艔 艔 裪 裪 邡 荧腚 腚 裪 腚 腚 腚腄 腚 腄 膇 腚 膇 裪 芷 艭 艭 | 裪 | | | | | J膜 艫 艮 腚 陭 艹 裪 莰 裪 芏 艹 腚 芏 裪 芏 莰 膥 膇 腄 陭 臥 膇 膇 裪 荧 蝖 艫 膃 艹 葙 腚 葙 膄 莰 臤 裪 臥 芭 腒 艏 苟 腣 | | | | 荇 荧 膽 腠 荧 艮 FFFl 臤 臥 芭 腶 葙 腪 艏 膄 艏 腝 靛 腶 膇 臤 艢 臥 葙 腧 艮 膛 陭 艢 艮 艢 腶 膄裪 艮 艮 艫 艮 裪 腶 葙 陭 莳 腒 荒 艏 腶 靛 芍 芭 苁 莳 艏 膃 艏 艮 艏 臤腒 艏 裪 葙 陭 莿 腶 艫 葙 臥 膿 腔 芭 腪 膄 莰 荒 臤 腒 臤 腧 裪 裪 艏 艏 艏 陭 膽 裪 膡 荇 艮 腝 艏 艏 裪 艢 艭 裪 裪 艮 裪 腚 莓 艏 裪 艰 艮 膥 陭 色 艏 艏 艰 艢 臥 裪 腶 腶 膬 艮 裪 艢 艮 腄 膃 腒 艢 膬 葙 腬 艢 裪 艹 莿 腚 臤 腒 臤 裪 艢 莰 裪 腪 裪 艏 莳 膬 莳 裪 艑 艷 艮 艭 艏 膜 艏 裪 臤 腧 臤 葙 膬 靛 膬 莳 艏 艏 艏 艹 艏 苌 臥 腔 膡 腒 艹 艏 葙 膄 艏 艔 芭 色 腀 腀 腀 腀 腀 腥 腪 艭 膇 邡 裪 ': : 腝 膥 苨 艏 裪膜 苆艢 腪艮 芕 艢 艮 膬 艏 芣 艏 膜 艏腸 苂 艢 艢 腛 芏 膡 苠艏 腃苨 膬 芇 芃 艮 芃 芒 芏 艤 腶 艏艏 花 腊艔 臤芏 膇腝 腀芷 艏 艑 艷 膜艑 艑 芭 ,I V 臤 腪趑 腀芚 腀芕 腀顰 腀趑 腀 腀芏 腀芭 腀艫 腀 腀腧 腀芐 腀臤 腀 腀腏 腀陭 腀腧 腀芄 腀荓 腀 腀艏 腀 镮 腀鏺 腀芭艮 腀 莰 腀艹 腀艮 腀 荇 腪腀雚芢荧 芭荳 艭菁 腹 艹艔 芭艮艏 腧苎 腚艮 裪腜 腺腄 艮 艹 艷賻 艹艹 芭 腒 1 腸 芙艠 膜 艮 艏 艏艫腨艷 膡艏膜艏鳉 艏 膜艫艏苩 艏艮 膡膜艫 苆裪膜艏艏 艏荒 腀艏 膜苄 艏艤 艏 膍艏芭腃芭艮 艑 裪 芌 荒 芌艐 膡膡 膜 艮 膜膡荽 艳 鞹腛 艨 莿 腜 艮 臥 葙 艨 賻 艹 陑荧 荒 艏 腛 芭 艮 艘艘艕菇 艫 艮 麽芌 艫 艮 裪 艏艏艕芌 艏艭 膄腵 艩艤 躂荧 芭艢 艹腃 腝艗艕腛 芭艏 葙陭 艏艏艕菇 膜艫 艏 芭裪艩 艏 莿 腎芌花 莿 艮 葙 蹬 艗菇艕腤艫 膄 裪 腜 陭 艮 葙 荧 艫 艏 腛 艏 腅 莿 陭 裍 葙 莿  苤腝 鉟 裪 腄 艏 裍 艑 艷 趄 葙 腂 艹 艮 腂 0 艹 芏 腂 苅 芭 腀芏 腀 0 色艢讌葚芍艐赼莈裪 艶 駯 PS莈 莍 ddoo OVuO u莇 莍 艭 腟 腟 裪腎 腀腀 腀腀 腀腎 裪 腀腀 腀腀 腀腀 裪腎 腀腀 腀腀 腀臤 裪 LEGENDi SEALED BLOCKS 膡 YLNR2 膡 YEAR 3 膡 YEAR 4 膡 YEAR 5 趑 YEAR 6 膡 YEAR 7 膠 YEAR 8 膡 YEAR 9 膠 YEAR 10 膠 KS ACTA芾BL臥 膠EX腡0.16 A腡腡 DEVELOPED RAS 膠 1 CARMEN UNDERGROUND LIFT腝 UNDERCUttTING SCHEDULE O SCALo DIMENS10N IN METERS(DRAR NOT膡 腝LIST OF TABLES TABLE NO.1 TABLE NO腂2 TABLE NO.3 TABLE NO腂4 TABLE NO.5 TABLE NO腂 6 V TABLE NO.7 TABLE NO.8 TABLE NO腂9 TABLE NO腂10 TABLE NO腂 11 TABLE NO腂12 TABLE NO.13 TABLE NO.14 15 TABLE NO腂 TABLE NO.16 TABLE NO腂17 TABLE NO腂18 腅 腒 V 腛 膄 葙 艮 荒 芭 腓 荲 臥 陭 芭 葙 苨 腁 触 荧 膄 | 腪 芭 | 艭 裪 苨 裪 荒 裪 膇 腚 芭 膬 膜 艏 艏 陭 苟 腄 裪 腄腒 腏 艏 苉 腨 荧 莓 腊 艏 葙 艏 艏 艏 艏 艮 芷 艮 艏 艏 裪 裪 腚 臥 臥 艏 艏 艏 腚 裪 芭 陭 荽 腃 葙 膬 腒 艭 莓 艮 葙 艏 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艮 苨 艭 腨 陭 艢 芓 艫 葙 腄 腒 腒 腌 腁 芔 腒 腄艏 腄艭 腄艭 芏 腶 腨 膄 膬 艏 艭 艭 裪 腊 膬 腁 裪 芒 腃 裪 芍 臤 腀 腀 腀 腀 腀 腀 陭 苟 芠 腎 腀 腀 腀 艑 苌 臤 苨 臤 艤 艫 葙 艏 艮 艏 裪 腶 腶 腒 腶 艮 艹 芏 艏 艏 艏 艏 艮 陭 腊 艭 裪 膽 裪 腎 苠 裪艮 腌艏 裪艏 腌艏 腌艏 裪 裪艮 艏 腚 艏 艤 艤 裪 荱裪 腅 艢 花 花 艏 艢 艑 腚 艏 花 艢 艢 艤 臤 艢 陭 || 腜 腀 腛 荒 苂 艤 腀 腛 芭 艏 苂 腭 陭 臥 苌 腀 腮 艏 陭 葙 陭 腀 腵 荧 陭 艫 艏 葙 臥 腷 苉 臥 艑 艔 芭 葘 艮 艏 艹 苂 艖 荒 腵 艫 艮 膜 臤 葘 艫 荒 裪 陭 苌 葙 莿 莈 艮 芌 葙 陭 葙 臥 芄 荒 艹 芭 艫 艑 莿 芭 荒 臤 陭 裪 莿 艑 腝 陭 芭 苌 臥 裪 荒 苂 腷 艏 莿 艏 莿 荒 艷 腚 艏 苂 龺 艮 艮 腶 荒 裪 艏 艏 葘 艑 膄 膄 艫 艏 膇 臤 芢 臥 腮 裪 艩 艹 荒 裪 裪 葙 腎 陭 艭 裪 艭 葙 苉 裪 膄 陭 艏 艏 葙 艭 艏 艭 臤 腧 葙 腄 莿 腧 芭 裪 葙 艫 腧 艏 艑 艑 艏 臥 艮 臥 芻 膇 腌 膆 芭 腃苂 艑 艏 艩 艏 苏 艤 艏 膜艏 莿 腀 腀 艏 腀 腀 腀 腀 艣 荒 艮 腏 腒 裪 裪 艑 芏 艭 莳 腵 腩 艏  芏 芏 腚 芏 裪 芏 赈 腒 艮 艏 腶 艏 艰 莿 腚 膜 花 腒 裪 裪 艤 芭 荧 荃 膬 艏 鑬 艭 鍼 莳 艮 荧 艏 裪 艏 陭 腚 膇 腓 苌 艏 艏 艏 艏 艏 膇 膇 膇 裪 艏 艭 裪 陭 葟 荧 膇 腀 艏 膇 艮 腓 苟 膇 陭 艏 艏 腀 艏 艏 艢 膬 莳 芷 芷 膜 艮 艮 腚 荧 苌 腚 艏 荧 腚 腚 艏 膇 荧 腚 艏 艏 艏 艏 腚 裪 膡 裪 裪 芷 裪 裪 裪 裪 裪 裪 艏 腸 膜 裪艷 葙 腀 裪艢 艮 鑍 赼 醅 荓 膜 腶 苌 艫 艮 艮 裪 裪 腒 艢 莳 腓 裪 膇 膇 膡 艏 裪 荧 艢 苤 艏 艗 膇 膇 艗 裪 荧 艮 膇 艏 艏 膇 腚 裪 荧 裪 腅 腝 艮 荒葙 芭 腪 葙 陭 腧 艏 ||| V 臤 艏 莿 艮 腶 艮 膇 艮 苤 艮 膜 艏 膇 苤 艭 艏 莳 膇 膇 陭 荧 腚 艏 艮 膇 腶 膜 膜 腧 艏 臥 膇 腓 陭 艰 陭 艏 膜 膜 膜 腪 艮 膇 膇 膇 荧 艏 芢 艭 艮 腶 裪 艏 艤 艮 艏 艮 艏 膇 艮 艏 艏 膇 艏 艏 膇 膇 膇 艏 艏 艏 膜 艏 艮 艮 艏 艩 腧腶 艏 艫 艢 艏 艮 艏 艮 腪 腊 腰 艏 裪 裪 艏 艏 艏 裪 裪 裪 腨 裪 芷 艮 膜 臥 艏 艏 艹 荲 膽 | 艏 艮 艏 莿 葙 艮 裪 膜 臥 艮 艏 艒 艏 艫 艳 艏 芢 艏 艏 艏 荽 裪 艭 艏 艏 腒 芷 艏 膇 芢 艏 腧 跨 膇 莳 艏 艏 艏 艮 陭 芢 艏 芢 腚 陭 艏 陭 陭 芢 艏 艏 艏 臤 荽 裪 膇 苟 艏 葙 葙 艏 腶 腕 艮 艏 艏 艏 艏 腚 腚 艏 艏 艏 艏 艏 艏 艏 裪 艏 腚 裪 艏 艏 艏 艢 艏 艮 膬 艹 艑 膆 芭 苂 膬 苌 莿 芭 艮 艏 膜 腶 臥 膆 苂 艏 莇 艏 艏 艏 腒 腓 陭 艭 荧 陭 裪 膇 陭 膇 艏 艮 艏 葟 艮 艏 艭 莿 艏 艏 艏 陭 膇 芢 艏 芢 艏 陭 荧 艮 陭 艏 莳 陭 艏 裪 苌 腓 腒 苟 艏 艏 臤 腶 腕 艏 艏 艏 艏 艏 艏 艏 艏 艮 艏 艏 艏 艏 艏 腚 艮 艏 艮 艮 艏 V 葙 腶 腶艏 艏 轚 臤 膬 臤 艮 艹 艸 腶 艏 裪 艢 腚 艏 膬 艏腚 艏 躚 裪 艏 艥 苁 花 陭 艭 腶 苌 艏 艩 腃 裪 艏 裪 艏 膇 陭 膇 腓 艏 艭 腓 芢 艮 膇 艏 膇 裪 陭 荽 艏 艮 艏 裪 莍 艏 芡 膇 芢 腒 艏 艏 艏 裪 艏 陭 艏 艮 艮 艏 艏 艏 膇 艭 荧 裪 膇 裪 苌 膽 腝 芏 艏 艏 陭 苤 腊 腒 腪 膇 艏 陭 艮 芷 艏 陭 艏 苟 邡 腒 艏 膇 腏 艏 莁 苂 艢 腄 腄 腄 腄 腄 腒 腄 腄 腒 腄 腄 腄 腒 腒 腄 腁 腄 腄 腄 艏 芏 艢 裪 艏 艏 艮 膇 鍼 貀 苟 艏 陭 邡 膇 艏 艭 膇 艏 陭 苤 艭 裪 苂 艏 艤 艮 膇 裪 艏 艭 膇 陭 腃 葟 艏 艭 艏 莳 苟 膇 葟 膇 膇 艭 膇 腓 艏 腚 艏 裪 莳 艮 艏 腒 陭 腓 艏 膇 陭 艮 艮 陭 艏 腓 芷 艮 腚 腏 裪 艏 艤 膡 腏 腄 腁 腏 腄 腄 腄 腄 腄 腄 腄 腄 腄 腄 腄 腄 裪 艏 艏 臥 荧 艏 荧 膇 荧 腒 艏 膇 荧 膇 膇 荧 荧 艏 艏 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o.Dinllian,QuC2011 Clty I芶I Nos 1632)92066腝 2C t腂 29腅 iC32)膜2苂02膜 2 豸 929腝 6020腂 920腝6膜331o35 0,0荴l, 腁腂 0腅 `|腶 IA陭 腁 l r l rt4)芣 MR, ALFREDO C. RAMOS Ch:rirman Bnd Chiof Exccutive Otficer ATLAS CONSOLIDATED MINING AI.,tO DE\ICLONNlEI!'I Ut,I(I{)RATION l'0 Pr()or, uuad Atpha Cenlrum. 12S ptonoer Streot Marrdaluyung Clly Deat Mr. Rarrros. llrii rr':fors 1() yortr letlur datod Octol)cr ,1, 2004 rcquestinU ,()r the issUitnce oI a Ct:rtiltczrLe o{ Nort-Covt:rag1c tef your rrrining epornlionr i,, Dorr An(jres Suriano, 'l't.llcdo Urty, Cebu V Altor carolul evalualron of tho docun]ents on hand, thls Otfice has docided to grant a Certificate ol Non-Coverage {or tho above-said mining operations rn Cobu, subject to oxistlng rules and rogulations. Plcaso be advised, howover, tlrat lhis Oflice wrll be monitoring the mrnlng operations poriodically tu onsure your comJrliance wtlh environtnonlal laws. Further, ally exllansion or rnoclillcalrorr ol currontly al)provod opcrations will be subiect to the Environmentlll lml)ilct AsScssrl rt:r r t (l:lA) lu( Itr lrtin lonts. 膍 / 腝 DEFENSOR 膌 ,rt膜 菁 V 膍 0膌 O Rc9膌 EI膍 '菋 MG8 RC菒 腧腧 ",V膍 腧 l,r:t's Co Cr'ccrr