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INTRODUCTION The Applied Mining Lease Area for Mineral Quartz & Feldspar, M.L. No. -
07/2018, an area - 1.02 hect. Applied by Shri Prabhu Singh S/o Shri Ram Singh
Rawat R/o - Fatehgarh Tehsil - Masuda, Dsitt. - Ajmer (Raj.) for an area 1.02hect.
The Letter of intent (LOI) issued by the letter no. - ADM/Udai- zone/Minor/CC.II/Udai/M.L. No. - 07/2018/1793 on dated 10/05/2019.
The Mining plan with progressive mine closure plan is submitted to Supdtg.
Mining Engineer Udaipur Circle, under rule 29 (5) and 29(5) (vi) of R.M.M.C.R.
2017.for next five years.
The applied area 1.02Hect. Is situated on GT Sheet No. 45 H/15.
No historical monument or building is present. There is no wild life/sanctuary, national park lies within 10Km. periphery of the applied area.
The applicant status is an Individual.
It is also committed that during the pendency period of approval of above said document or thereafter if any change occurs in the name & address of applicant, it will be informed promptly. 2
CHAPTER: 1 GENERAL a.) Applicant's Name and Address:- Shri Prabhu Singh S/o Shri Ram Singh Rawat R/o – Fatehgarh, Tehsil - Masuda, Dsitt. - Ajmer (Raj.) b.) Status of Applicant: - An Individual c.) Mineral(s) which is/are included in the prospecting license (for fresh grant) - Quartz & Feldspar. d.) Mineral(s) which is/are included in the letter of Intent - Quartz & Feldspar. e.) Mineral(s) which Applicant intends to mine: - Quartz & Feldspar is occurring in the area & applicant intents to mine the same. f.) Name and Address of the Recognized Person Hemraj Banthia, Mining Engineer & RQP Reg. No. RQP/UDP/216/2001 - A, (Renewed up to 01/02/2021) 103 Rajhans Complex, Bedla Road, Udaipur-313001 Tel. No. 0294 - 2419950, Mobile - 9929555377 E-mail:- [email protected]
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CHAPTER: 2.0 LOCATION AND ACCESSIBILITY (a) Details of the applied area: The area under consideration has been shown in Plate No.1 of the Mining Plan. The applied area falls in G.T. sheet No. 45 H/15. The applied M.L. area is situated near Village Runija, Tehsil- Girwa, Dist. - Udaipur. Description report of the area:- From Longitude Latitude A 73052’13.5552” 240 21’24.6564” B 73052’09.714” 240 21’21.5784” C 73052’10.7076” 240 21’19.5048” D 73052’14.934” 240 21’22.7412” FRP: - Well in Khasra No- 728 (Lat. - 240 21’04.06912” & Long. 73052’19.13782”)
Table no.1: Details of the area Forest Non- forest Forest Area Khasra no. Area (ha) (specify) (ha) Nil Nil (i) Pvt. Land 398 1.02 (ii) Govt. Land Nil (iii) Others (charagah) Nil Total M.L. area :- 1.02Hect. b) Infrastructure => Access to the Applied M.L. area The Applied M.L. area falls NW of village
Runija about 1.2Km. The village Runija is connected by tar road and is about
32.00Km from Tehsil - Girwa.
=> Availability of water The Ground water table is 50m (288MSL in rainy season) to 55m (283MSLin Dry Season). The drinking water can be brought from the wells situated at about 500m distance.
=> Power supply The Electric Line passes out side the M.L. area. The electric facility is not available within applied Mining Lease area. 4
=>Climate The climate in the area is dry with extreme temperature variation. The
Temperature varies 430 to 460 C in summer and 20 to 50 C in winter. The avg.
Rainfall is 600 mm Most of the rain falls during the period of July to September.
=> Post Office The nearest Post & Telegraph office is at Jagat.
=> Medical Facilities Nearest Dispensary is at village Jagat.
=> Police station – Applicable police station is at Kurabad.
=> Education Facility up to primary school is available at Jagat Village and further up to Senior Secondary/higher education at Kurabad. 5
Part -A CHAPTER: 1.0 GEOLOGY AND EXPLORATION
The fieldwork comprising different topographical survey, geological mapping and data collection was done in phases. The contouring for the applied area with litho unit mapping and the other prominent features of the area were marked during course of survey. 1.1) Physiography: - The applied M.L. area is situated south of Village Runija Tehsil - Girwa, District- Udaipur. Topographically the applied area is in form of mild hilly Land. The altitude of the area is 346 to 338mSL. For the survey Pillar A is considered as 340mSL as Benchmark. There is no forestland in and around this applied M.L. area. The distances of prominent villages are given below in table no.2 which is lying around this applied M.L. area. Table no.2: Adjoining Villages (with aerial distances in Km) Towards SE Runija About 1.2 km Towards NW Vasu About 0.9 km Towards SW Ajabara About 2.6 km Towards SE Adwas About 3.3 km Towards NE Jagat About 3.0 km 1.2) Regional Geology: The area covered Major part of Udaipur. Lasariya formation in Mangalwar complex of Bhilwara super group Archean age. Here a probable greenstone assemblage overlying a tonalite basement has been decimated by deformation, migmatization and late to post kinematic granite plutonism. As a result, there are remnants of quartzite, carbonate bodies, conglomerate and basic and felsic volcanics, especially remnants of amphibolite occur in force in the area. This enclave suite is followed by a series of intrusives namely, Gingla Granites and gneisses, metadolerites, Tekan granite, coarse grey granite, epidiorite, leucogranite and quartz -pegmatite vein. This intrusive suite is overlain by rocks of Rajpura - Dariba Group represented by Bhindar Formation. This rock formation consists of amphibolite, arkose - greywacke - quartzite, impure marble and calc - gneiss and 6 graphitic calc - mica schist. After the Bhilwara Supergroup the deposition of Aravalli Supergroup was initiated with the advent of basal quartzite of Gurali Formation followed by Delwara Formation. This rock formation is composed of conglomerate and meta-basic volcanics. The basement rocks have undergone polyphase deformation alongwith its cover rock. The most conspicuous structure is S1 schistosity related to first fold which imparts, by and large, uniform structural grains trending NNW - SSE to NE - SW. Axial planar cleavage of F2 folds trend N-S to NE-SW. Small - scale conjugate sets of F3 folds are present as well. The stratigrapahic succession of the rocks of Udaipur district may be summarized as under: Table no. 3 Stratrigraphy of the mineral deposite in the area Era/ Geological Group Formation Lithology Period Cycle Quartz vein and reef Palaeo to Intrusive Meso Antalia Proterozoi Delhi Formation Quartzite Gogund c Supergroup Intrusive a Group Rakhabdev Udaipur/ Salumbar Granite and Ultramafic gneisses suite Serpentines Garnetiferous mica schist Quartzite; Jharol/ Calcareous schist; Nathdw Haldighati Biotite schist and feldspathised ara Formation mica schist Group Palaeo Cherty quartzite; Aravalli Proterozic Phylite chlorite-mica schist Supergroup Khamnor Chloritic phyllite (meta - tuff) Formation Synsedimentational meta basic Bari volcanic and associated Lake pyroclastics; Varla Group Meta-conglomerate; Formation Doomitic and calcitic marble; D. Meta siltstone; Phyllite and carbonaceous 7
phyllite Sajjangarh Quartzite, meta-conglomerate and Formation pebbly arkose Carbonaceous phyllite; Dolomite, ferruginous dolomite Nimachmata and chert (locally stromatolitic Formation and phosphatic); Quartzite (locally conglomeratic); Phyllite Balicha Phylllite, metagreywacke Udaipur Formation Eklinggarh Quartzite, meta-semipelite Formation Phyllite, manganiferous phyllite, Sabina metagreywacke, pebbly meta- Formation conglomerate
Quartzite Phyllite, mangniferous phyllite; Dakankotra/ Stromatolitic and phosphatic Berwas dolomite and chert; Formation Quartzite Pebbly meta arkose Debari Arkosic quartzite; Jaisamand Ferruginous quartzite Formation Quartzite with bands of phyllite; Feldspathic quartzite Delwara Basic meta volcanics Formation 1.3 Local Geology Mineral deposit of the lease area belongs to the Lasaria Formation In Mangalwar Complex of Bhilwara Super Group. The mineral is exposed on the surface as well as below the ground level. To understand the geology of the area, surface geological mapping was carried out on a scale of 1:1000 (plate No. 3). This plan elucidates the different litho-logical units, their dips and strikes, nature and behavior of mineralization and various other geological features (if any) observed during the course of mapping.
Geological Era/Peiod Cycle Group Formation Lithology Bhilwara Mangalwar Lasaria Biotite Schist Achaean Super group Complex Formation 8
1.4 Structure The main lease area has mineral Quartz & Quartz & Feldspar. There is no major geological disturbance observed in the area. However the rock type exposed in the area depict many small structural feature such as joints, fractures, foliations and minor folds etc. 1.5 Grade and ore characteristics The mode of occurrence of Quartz & Quartz & Feldspar has imparted certain characteristics that have greatly enhanced the value of the deposit. The mineral occurs in mixed form & is separated on the surface. Table-4: Chemical and Physical Properties Physical Properties S. No Mineral Particulars Results (%) Mineral Particulars Results (%) 1 Quartz Colour White Quartz & Colour Pinkish, Feldspar Flesh 2 Sp. Gravity 2.6 Sp. Gravity 2.6 3 Hardness 7.0 Hardness 6.0 Chemical Properties S.No Mineral Particulars Results (%) Mineral Particulars Results (%) 1 Quartz SiO2 98.30 Quartz & SiO2 66.09 Feldspar 2 Fe2O3 00.02 Fe2O3 00.04 3 Al2O3 00.80 Al2O3 18.58 4 CaO 00.55 CaO Trace 5 MgO NIL MgO Trace 6 LOI NIL LOI 00.41 7 TiO2 Trace K2O 2.66 8 Others Trace Na2O 8.56 9 Others 0.25 1.6) Name of prospecting/exploration agency Shri Prabhu Singh 1.7) Details of prospecting/exploration already carried out The Applied Mining Lease area was held in favour of Shri Prabhu Singh In the applied M.L. area the mineral Quartz & Feldspar is exposed on the surface. 1.8) Proposed Plan of Exploration- It is proposed to make Prospecting pit and trenches to explore the continuity of the Quartz & Feldspar Mineral. 9
Year No. of Boreholes Total No. of pits & No. of Tranches & (Core/RC/DTH Meterage Dimensions Dimensions (L x W x D) in (L x W x D) in meters meters First Year ------Proposed location of prospecting pits and trenches as shown on surface geological plan plate no. 4. 1.9) Method of Estimation of Reserves Method adopted Reserve estimation in small-scale non-metallic mineral area is a task which cannot be very definitive and exhaustive but it is only on the basis of existing available features, prospecting and exploration data. Generally exploration, development and exploitation are carried out simultaneously which is most appropriate methodology in such situation and is regarded as exploratory exploitation. The reserves of mineral have been estimated by plan area method. On the basis of the outcrop findings in the area, structural behavior & the control of mineralization the physical limits of the pegmatite bodies such as strike length, width & depth extension has been defined. Based on the experience and existing features, the estimated reserves have been classified into proved, probable & possible category. The plan area has been calculated from the surface geological plan. The average plan area has been multiplied by thickness of mineral and then multiplied by the bulk density. This gives us the geological reserves of mineral further it is than multiplied by recovery factor i.e. 80% to get the recoverable mineral. Remaining 10% is considered as waste rock/soil generated and 10% sub grade generated. As geology varies from fabric to fabric these indices may vary and exact indices will be available during exploratory exploitation. This is true for most explored deposits also. 1.10) Estimation of Reserves - 10
Parameters of estimation of category of reserves and their category: The following parameters have been considered while estimating the geological reserves (in situ): 1. The ultimate pit limit (as marked on plate no. 4) is been calculated by the help of the mineralized zone boundary. It has been marked by considering the angle of repose as 450. 2. The bottom limit is marked as the limit of probable reserves. 3. The statutory barrier is not considered as mineable. 4. The reserve under statutory barrier has not taken into calculation.
5. The Quartz & Feldspar contains Na2O between 8.56% is considered sub grade. More Mixed Quartz & Feldspar is also sub grade mineral. 6. During the shorting of mineral much inter mixed mineral, small size pieces/powder, Dust, Low grade below Sub grade mineral shall be consider as waste/rejects. Reserves under the UNFC category 111(Proved): It is assumed as per the present mining scenario and extrapolating the existing in well nearby area: (i) Based on the prior experience the recovery factor is considered as 80%. The recovery is an assumed it may be changed due any reason cannot consider for any kind of Assessment. (ii) The depth of Proved mineral is taken up to 320mR.L. From surface. Table No 5 Proved Table Reserve 111 Mineralized Depth Mineral Bulk Mineral Rec. Waste Sub grade zone (m) Vol. Den. (tones) Mineral 80% 10% 10% Area (m2) (m3) MT/m3 (tonnes) 6679 22 146938 2.6 382039 305631 38204 38204 Total 382039 305631 38204 38204
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Reserves under the UNFC category 121(Probable): It is assumed as per the present mining scenario and extrapolating the existing in well nearby area: (i) The depth of Probable mineral is taken further 10m below the proved Mineral zone. (ii) Based on the prior experience the recovery factor is considered as 80%. Table No. 6 Probable Table Reserve 121 Mineralized Depth Mineral Bulk Mineral Rec. Waste Sub grade zone (m) Vol. Den. (tonnes) Mineral 80% 10% 10% Area (m2) (m3) MT/m3 (tonnes) 6679 10 66790 2.6 173654 138923 17365.5 17365.5 Total 173654 138923 17365.5 17365.5
Reserves under the UNFC category 333(Possible): It is assumed as per the present mining scenario and extrapolating the existing in well nearby area: (i)The depth of possible mineral is taken further as 5.0m below to probable mineral zone. (ii) Based on the prior experience the recovery factor is considered as 80%. Table No.7 Possible Reserve 333 Mineralized Depth Mineral Bulk Mineral Rec. Waste Sub grade zone (m) Vol. Den. (tonnes) Mineral 80% 10% 10% Area (m2) (m3) MT/m3 (tonnes) 6679 5 33395 2.5 86827 69462 8682.5 8682.5 Total 86827 69462 8682.5 8682.5 Total Reserve Table No. 8 Nature of UNFC Rec.Mineral Quartz Feldspar Reserve 80% (tonnes) 15% 85% Proved 111 305631 45845 259786 Probable 121 138923 20838 118085 Possible 333 69462 10419 59043 Total 514016 77102 436914 12
Waste Generated Total waste generated about 64252MT includes (out of Proved, Probable, Possible recovery) (i) Anticipated Life of Mine Average production proposed is about of 38315MT of per annum. Therefore Anticipated Life = Mineral yet to be excavated/ Avg. Annual Production = 444554/38315 = About 12 Years The Life of mine may change depending upon the exploratory exploitation further prospecting, rate of production and the extent of mechanization.
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CHAPTER 2: MINING A. Open Cast Semi Mechanized mining: (a) Briefly describe the existing as well as proposed method for excavation with all design parameters indicating on plans /sections. Not applicable (b) Indicate year-wise tentative Excavation in metric tones indicating development, ROM, pit wise as in table below:- I. Insitu Tentative Excavation Table No. 9 Year Total Saleable Waste Sub grade Over Over Stripping Excavation Mineral 80% generated generated burden burden + Ratio (in MT) tones from the total from the total from OB mineral Mineral: excavation excavation benches Waste Waste 10%MT 10%MT tonnes tonnes First year 47424 29679 3710 3710 10325 14035 1:0.473 Second year 40989 32791 4099 4099 -- 4099 1:0.125 Third year 43001 34401 4300 4300 -- 4300 1:0.125 Fourth year 49397 39518 4939 4940 -- 4939 1:0.125 Fifth year 68980 55184 6898 6898 -- 6898 1:0.125 Total 249791 191573 23946 23947 10325 34271 II. Dump rehandling (for the purpose of recovery of mineral): Estimated available material (Cum) Not Applicable (c) Proposed year wise development for next five years Proposed Mining Method: - The Applied Quartz & Feldspar mine shall be developed by Semi Mechanized Mining. The mineral is outcropping on the surface therefore open cast mining has been the obvious choice. Bench Parameters shall be – 1. Height - 3m 2. Width - More than 3m Overall slope - 450 Gradient of the Haul Road: - 1 in 16 (ramps)
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Quantum of Development and Tonnage and Grade of mineral expected, pit wise, are given in table below:- First year - During this year of Mining Plan the applicant will excavation on one Bench of O/B (R.L. 343 above) shall be advance in the north direction. Two benches of mineral shall be prepared (RL 343 above, 343-340). About 47424 MT of material will be excavated. This will include 29679 MT of recoverable mineral & 3710MT mineral wastes & 3710MT Sub grade mineral. Overburden shall be generated from OB bench 10325MT. The recoverable mineral includes 4452 MT Quartz & 25227 MT Feldspar. Table No.10 a: Proposed Bench wise Development for first year At Bench LengthDepth Total Sp. Total Mineral Waste Sub grade Over OB+ Section at R.L. X (m) Excavation Gr. Excavation Rec. generated generated Waste Width m3 MT/ (in MT) 80% from the from the burden MT (m2) m3 MT total total MT excavation excavation 10% MT 10% MT XX'YY' 343 above 3971 1 3971 2.6 10325 ------10325 10325 XX'YY' 343 above 3971 2 7942 2.6 20649 16519 2065 2065 -- 2065 XX' 343-340 2109 3 6327 2.6 16450 13160 1645 1645 -- 1645 TOTAL 47424 29679 3710 3710 10325 14035 Second year - During this year of Mining Plan the applicant will excavation on one Bench of mineral shall be prepared (RL 343-340). About 40989 MT of material will be excavated. This will include 32791 MT of recoverable mineral & 4099MT mineral wastes & 4099MT Sub grade mineral. The recoverable mineral includes 4919MT Quartz & 27872MT Feldspar. Table No.10 a: Proposed Bench wise Development for second year At Bench LengthDepth Total Sp. Total Mineral Waste Sub grade Over OB+ Section at R.L. X (m) Excavation Gr. Excavation Rec. generated generated Waste Width m3 MT/ (in MT) 80% from the from the burden MT (m2) m3 MT total total MT excavation excavation 10% MT 10% MT XX'YY' 343-340 5255 3 15765 2.6 40989 32791 4099 4099 -- 4099 TOTAL 40989 32791 4099 4099 -- 4099
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Third year - During this year of Mining Plan the applicant will excavation on one Bench of mineral shall be prepared (RL 340-337). About 43001 MT of material will be excavated. This will include 34401 MT of recoverable mineral & 4300MT mineral wastes & 4300MT Sub grade mineral. The recoverable mineral includes 5160MT Quartz & 29241 MT Feldspar. Table No.10 a: Proposed Bench wise Development for third year At Bench LengthDepth Total Sp. Total Mineral Waste Sub grade Over OB+ Section at R.L. X (m) Excavation Gr. Excavation Rec. generated generated Waste Width m3 MT/ (in MT) 80% from the from the burden MT (m2) m3 MT total total MT excavation excavation 10% MT 10% MT XX'YY' 340-337 5513 3 16539 2.6 43001 34401 4300 4300 -- 4300 TOTAL 43001 34401 4300 4300 -- 4300
Fourth year During this year of Mining Plan the applicants will excavation on shall be advance in the all direction. Two benches of mineral shall be prepared (RL 337-334,334-331). About 49397 MT of material will be excavated. This will include 39518MT of recoverable mineral & 4939MT mineral wastes & 4940 MT Sub grade mineral. The recoverable mineral includes 5928 MT Quartz & 33590 MT Feldspar. Table No.10 a: Proposed Bench wise Development for fourth year At Bench LengthDepth Total Sp. Total Mineral Waste Sub grade Over OB+ Section at R.L. X (m) Excavation Gr. Excavation Rec. generated generated burden Waste Width m3 MT/ (in MT) 80% from the from the MT MT (m2) m3 MT total total excavation excavation 10% MT 10% MT XX'YY' 337-334 4538 3 13614 2.6 35396 28317 3539 3540 -- 3539 XX'YY' 334-331 1795 3 5385 2.6 14001 11201 1400 1400 -- 1400 TOTAL 49397 39518 4939 4940 4939
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Fifth year During this year of Mining Plan the applicant will excavation on four benches of mineral shall be prepared (RL 334-331,331-328,328-325,325-322). About 68980 MT of material will be excavated. This will include 55184MT of recoverable mineral & 6898MT mineral wastes & 6898 MT Sub grade mineral. The recoverable mineral includes 8278 MT Quartz & 46906 MT Feldspar. Table No.10 a: Proposed Bench wise Development for fifth year At Bench LengthDepth Total Sp. Total Mineral Waste Sub grade Over OB+ Section at R.L. X (m) Excavation Gr. Excavation Rec. generated generated burden Waste Width m3 MT/ (in MT) 80% from the from the MT MT (m2) m3 MT total total excavation excavation 10% MT 10% MT XX' 334-331 2032 2 4064 2.6 10566 8453 1057 1057 -- 1057 XX'YY' 331-328 3289 3 9867 2.6 25654 20523 2565 2565 -- 2565 XX' 328-325 2323 3 6969 2.6 18119 14496 1812 1812 -- 1812 XX' 325-322 1877 3 5631 2.6 14641 11712 1464 1464 -- 1464 TOTAL 68980 55184 6898 6898 -- 6898
Table No.11: Year wise proposed production of minerals Year Total Saleable Waste Sub grade Over Over Stripping Excavation Mineral 80% generated generated burden burden + Ratio (in MT) tones from the total from the total from OB mineral Mineral: excavation excavation benches Waste Waste 10%MT 10%MT tonnes tonnes First year 47424 29679 3710 3710 10325 14035 1:0.473 Second year 40989 32791 4099 4099 -- 4099 1:0.125 Third year 43001 34401 4300 4300 -- 4300 1:0.125 Fourth year 49397 39518 4939 4940 -- 4939 1:0.125 Fifth year 68980 55184 6898 6898 -- 6898 1:0.125 Total 249791 191573 23946 23947 10325 34271
(d) Open Cast Mine a. Salient features of working The mining method shall be open cast semi mechanized mining. In the five year the working would be extended to systemize. The faces would be advanced in all the directions & depth wise for production as well as recovery. The benches shall be taken 3m height. Haul road & Bench to Bench ramp shall be made of 1 in 16 gradient & the width of the road shall be more then 6m. The loading shall be done by excavator in the Tippers. This will help in better utilization of the resources 17 and systematic development of the mine. The mineral is hard in nature & directly dig gable so drilling & blasting is required. b. Design parameter- The mining method shall be open cast semi mechanized mining Bench parameters shall be adopted - 1. Height 3m 2. Width more than 3m. The mineral shall be first sorted out manually to remove the impurities associated with it. The sorted mineral shall be then carried to the temporary Stack Yard & then further loaded for onwards transportation by tipper to the factories & other parts of the state. The overburden shall also be dumped by mechanical excavator using the tipper. Describe briefly the layout of mine workings, pit road layout, the layout of faces and sites for disposal of overburden/waste along with ground preparation prior to disposal of waste, reject etc. A reference to the plans and sections may be given. UPL or ultimate size of the pit is to be shown for identification of the suitable dumping site. The mining shall be done to make the mines safe and systematic with the required production. The Mining shall be started from northeast boundary. In next year the existing pit shall be advanced in all directions. The mine mineral Quartz & Feldspar shall be collected in the mineral stack yard and then sorted over their manually before its final dispatch to various industries through trucks. The sub grade generated shall be collected in sub grade stack yard and shall be then mixed with high-grade mineral for use in various industries. The waste generated shall be carried through trucks to the dump yard in the east part of the Lease. The Bench height shall 3m & bench width shall be more than the bench height The mine shall be developing in first five year shall be northeast side of the lease as shown in plate no. 6. The ultimate pit size shall be Ultimate Size of the Pit at the end of life of mine: - 0.6672Hect. Ultimate Pit Depth: - 24m Ultimate Pit Slope:-450 Area to be covered Under Plantation: - 0.5255Hect. 18
Amount of Yearly advance mined of faces:- Year I yr II yr III yr IV yr V yr Advance mined of faces 52m 51m 45m 38m 23m Length of faces:- Year I yr II yr III yr IV yr V yr Length of faces 94m 89m 123m 119m 105m Slop of faces- 650 The main operation shall be digging, shorting and the transportation by dumper. The Mineral dumper are to be loaded by excavator. Utilization of mineral: - The minerals - Quartz & Feldspar are used in various grades in various industries depend upon manufacturing of different products. Quartz is used in ceramics, glass manufacturing, ferrosilicon, induction furnaces lining, and electric lining industries and in paints. Quartz & Feldspar used in glass, ceramics, abrasives and electrodes (as flux coating, welding rods and inductors). For all these purposes, quartz and Quartz & Feldspar are usually ground to the size of 200 to 300 meshes in grinding units. (e) Waste & Sub Grade Handling: - for the five year the waste & sub grade generation is as follows. Depending on improvement of technology both at end use and processing, this material can be used at latter date:- Waste generation Sr. No. Year I yr II yr III yr IV yr V yr Total 1. Mineral Waste 14035 4099 4300 4939 6898 34271 (MT) + Overburden 2. In m3 5398 1577 1654 1900 2653 13182 3. Swell Volume (m3) 6478 1892 1985 2280 3184 15819 The waste generated shall be dumped as shown plate no. 5. Sub Grade Mineral Year I yr II yr III yr IV yr V yr Sub Grade Mineral 3710 4099 4300 4940 6898 ( MT)
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The sub grade shall be stack as shown on plate no. 5. For the next five year the waste & sub grade generation is as follows:- Waste ((MT) + Overburden) = 34271MT Sub Grade Mineral = 23947MT (f) CONCEPTUAL MINING PLAN: - I. Proposal of Conceptual Plan The Proposals of the Conceptual Closure are based on the Geology and Topography of the region. A part of the excavated region shall be converted into water reservoir after exhausting the complete available mineral. The Applicant shall make water drains for the purpose. The surroundings of the proposed Water Reservoir would be fenced and the excavated region shall be backfilled. This shall also increase the aesthetic beauty of the area. The office and other buildings, the mine road and the other entire infrastructure developed by the Applicant shall be used by the local people as public buildings. The virgin region shall be used for agriculture purposes. II. Exploration: - The applicant shall be dig of /made prospecting pit and trenches in the First year to know the true potentiality of the area. Year No. of Boreholes Total No. of pits & No. of Tranches & (Core/RC/DTH Meterage Dimensions Dimensions (L x W x D) in (L x W x D) in meters meters First Year ------First Year ------
III. Mine Development: - IV. Land Degradation and Reclamation (i) For the five year Land Degradation and Reclamation is as follows:- Total Excavated Area : 0.6657 Hectares Area to be Converted into Water Reservoir : 0.6657 Hect. Area to be Reclaimed (near statutory barrier) : -- Remaining Dump Area : --
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(ii) For the end of life the Land Degradation and Reclamation is as follows:- Total Excavated Area : 0.6672Hectares Area to be Converted into Water Reservoir : 0.4361Hectares Area to be Reclaimed : 0.2311Hectares Remaining Dump Area : ----- V. Rehabilitation As no personnel are expected to be migrated due to mining in the applied M.L. area and also the adjoining region is having a good mineral potential, the rehabilitation of the employees is not one a problem of the area. The workers and other staff may get employment in the neighboring areas after the end of life of mine. The applicant may also help to provide employment to the workers. VI Plantation Proposals Type of Plants : 1. Mango 2. Neem 3. Palm 4. Other Fruit bearing trees. No. of Plants : 374for next five years Total area to be covered : 0.1125Hect. Time of Implementation : During the rainy season in form of green festival VII. Anticipated Life of Mine We are considering average production of 38315MT of mineral per annum. Anticipated Life = Mine able (121 + 122) Reserve/ Avg. Annual Production = 444554/38315 = 12 Years at present No dump shall be kept in the region at the Closure stage of mine. The entire dump shall be backfilled. (g) Extent of Mechanization- Initially Tippers will also arrange on hire basis. Later the applicant will go for own mechanization.
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Proposed Extent of Mechanization S. Type No Bucket Capacity Make Motive H.P. no. s. in Cu. M. Power 1. Dumper 3 10 tonner Tata Diesel 60HP 2. Tractor with Trolly 1 Local Diesel 15HP 3. Compressor 1 75 CFM Local Diesel 30HP 4. Compressed Jack Hammer 3 32mm Local --- air operated 5 hydraulic excavator Tata 54HP 1 -- (Hi-200) Hitachi *All machineries on hire bases as per Requirement (h) BLASTING The Blasting will be done by the authorized contractors on contract basis. These contractors have own safety explosive container as well as Explosive License. i Broad Blasting parameters Length of Shot Holes : 1.6m Diameter of Shot Holes : 32mm Spacing : 1m
Burden : 0.8m
Stemming : 30% ii Type of Explosive used/ to be used:- Special Gellatin, Ordinary Plain Detonator, Safety Fuse. iii Powder factor in Ore and O/B/waste/development heading/stop:- 1. Expected Powder Factor : 4 Tonnes/kg of explosive 2. Quantity of Ore Broken Per Hole : 3.12 Tonnes = Depth x Burden x Spacing x Sp. Gravity = 1.5 x 0.8 x 1 x 2.6 3. Explosive Required per Hole : 3.12/4 = 0.78 kg Sp. Gel. Per Cartridge : 0.14 kg A.N.F.O. per hole : 0.64 kg Total Insitu rock to be blasted per year (max. for this period) = 68980 tones No. of holes required in a year = 68980/3.12 = 22109 hole No. of holes required in a day (working of 300 days per year) 22
= 22109/300 = about 74 hole Amount of explosive required in a day = 74 x 0.78 = about 58 kg. Max no. of holes to be blasted in a row: - 10Nos OMS No. of Shift Per Day : One No. of Working Days/year: 300 Average Production per day: 68980/300 = 230 Tonnes Proposed No. of Labours : 20 OMS : 230/20 = 12 Tonnes iv- Weather secondary blasting is needed: - No. v- Storage of Explosive: - The explosive shall be supplied by the authorized contractor at the blasting site during the blasting. The explosive shall be directly used so storage of explosive is not proposed. B. Underground Mines: Not Applicable. 23
CHAPTER 3: MINE DRAINAGE The average rainfall in this area is very low, and hardly exceeds 600mm. seasonal water stream may through the applied M.L. area (in which the water flows through natural gradient). During rainy season. There is scarce chance of this rainy water to enter into the pits. If rainwater collected in pits and remain there for a considerable period of time, it will take about two to three months to percolate down the ground. Normally work at bottom of the pit remains suspended in the rainy months following the rains. A hole may be drilled at bottom of querry to let water pass into lower water table. However, in case of emergency the water may be pumped out (using one diesel engine driven pump of say 15 H.P.). This water can be spilled in the water drain system made for the proper drainage of the mine water outside the applied Mining Lease area. The Ground water table is 50m (288MSL in rainy season) to 55m (283MSLin Dry Season). The drinking water can be brought from the nearby wells (500m distance). The Applicant shall make garland drain, retaining walls, setting tanks all around the pits and dumps. The rain water utilized by harvesting techniques.
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CHAPTER 4. STACKING OF MINERAL REJECTS/SUB GRADE MATERIAL AND DISPOSAL OF WASTE A) Indicate briefly the nature and quantity of top soil, overburden / waste and Mineral Reject to be disposed off. The waste rocks found in the area includes overburden varying in thick her over the Mineral bed, rejects (sorting of intergrowth of soil with Quartz & Feldspar). Table No.12: Waste generation S. No Year I yr II yr III yr IV yr V yr Total 1 Mineral Waste (MT) 3710 4099 4300 4939 6898 23946 2 Over burden (MT) 10325 ------10325 3 Total Waste (1+2) 14035 4099 4300 4939 6898 34271 MT 4 In m3 5398 1577 1654 1900 2653 13182 5. Swell Volume (m3) 6478 1892 1985 2280 3184 15819 *Swell factor taken as 1.2 b Land chosen for disposal of waste with proposed justification: (i) Selection of Waste Rock Dump Site 1. It is in the non-mineralized zone. 2. The topography is favorable for dumping. 3. The area is sufficient for long-term use. 4. To prove the barren status of proposed site proposal of PPP & trenches has been given in exploration program. (ii) Stacking the Over burden It is proposed to stack the rejects & OB produced from this mine temporarily at the sites shown in the Plates 6. Extent of area required is shown in following table no.12. Table no.13: Extent of area for waste dump Year I yr II yr III yr IV yr V yr Total Area (m2) 925 270 284 326 455 Avg. height of Dump 7m 7m 7m 7m 7m *Sloping profile of dump: - 370 Size of OB Dump: 37m x 29m x 7m. Location: - Near pillar D.
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B.1 Generation of Top Soil: Stacking near pillar B. C. Generation & Stacking of Sub Grade Mineral: - It is also proposed to stack the Sub grade material near statutory Barrier. The Sub grade mineral shall be used in mixing with high grade to make avg. grade marketable. The Generation shall be:- Table No.15: Sub Grade Mineral Year I yr II yr III yr IV yr V yr Sub Grade Mineral (MT) 3710 4099 4300 4940 6898 Sub Grade Mineral M3 1427 1577 1654 1900 2653 Swell Volume (m3) 1712 1892 1985 2280 3184 Total Area (m2) 342 378 397 456 637 Avg. height of Dump 5m 5m 5m 5m 5m
The total area covered by the sub grade mineral at the end of this mining plan period shall be 560m2. Height: 5m Area: 35m x 16m Location: near Pillar C.
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CHAPTER 5: USE OF MINERAL A. Describe briefly the end use of the mineral (sale to intermediary parties, captive consumption, export and industrial use) The minerals– Quartz & Feldspar are used in various grades in various industries depend upon manufacture of various products. Quartz & Feldspar used in glass, ceramics, abrasives and electrodes (as flux coating, welding rods and inductors). For all these purposes, Quartz & Feldspar are usually ground to the size of 200 to 300 mesh in grinding units The raw mineral will be supplied to the sister concern of the applicant, also to the other industries of Udaipur, Udaipur and other parts of Rajasthan. b Indicated physical and chemicals specifications stipulated by buyers:- Physical Properties S. No Mineral Particulars Results (%) Mineral Particulars Results (%) 1 Quartz Colour White Quartz & Colour Flesh Feldspar 2 Sp. Gravity 2.6 Sp. Gravity 2.6 3 Hardness 7.0 Hardness 6.0 Chemical Properties S.No Mineral Particulars Results (%) Mineral Particulars Results (%) 1 Quartz SiO2 98.30 Quartz & SiO2 66.09 Feldspar 2 Fe2O3 00.02 Fe2O3 00.04 3 Al2O3 00.80 Al2O3 18.58 4 CaO 00.55 CaO Trace 5 MgO NIL MgO Trace 6 LOI NIL LOI 00.41 7 TiO2 Trace K2O 2.66 8 Others Trace Na2O 8.56 9 Others 0.25
c Give detail in case blending of different grades of Ores is being practiced:- No blending of different grades are done 27
CHAPTER 6: PROCESSING OF ROM AND MINERAL REJECT a) If processing / beneficiation of the ROM or Mineral Reject is planned to be conducted, briefly describe nature of processing / beneficiation. This may indicate size and grade of feed material and concentrate (finished marketable product), recovery etc. The minerals produced from the mines need only specific sorting & grading for Size, Grade & Recovery factor. No mineral beneficiation processing will be required at mines for Quartz & Feldspar. Impurities will be removed simply by hand picking. Besides this no other processing or beneficiation is required on proposed at the mine site b) Give a material balance chart with a flow sheet or schematic diagram of the processing procedure indicating feed, product, recovery, and its grade at each stage of processing. Not applicable c) Explain the disposal method for tailings or reject from the processing plant. Not Applicable d) Quantity and quality of tailings /reject proposed to be disposed, size and capacity of tailing pond, toxic effect of such tailings, if any, with process adopted to neutralize any such effect before their disposal and dealing of excess water from the tailings dam. Not Applicable e) Specify quantity and type of chemicals if any to be used in the processing plant. No f) Specify quantity and type of chemicals to be stored on site / plant. No processing / beneficiation is proposed. g) Indicate quantity (cum per day) of water required for mining and processing and sources of supply of water, disposal of water and extent of recycling. Water balance chart may be given. No water shall be required for processing. Water shall be required in mining to cater for drinking purposes, dust suppressing at faces and on haul roads, and plantation. Total water requirement in the mine will be about 3.0KLD for drinking, spraying and plantation.
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CHAPTER 7: OTHER Describe briefly the following 7. (a) Site Services Power supply Electric power supply Line does not exist in the applied Mining Lease. The nearby villages are electrified. It is proposed to connect the applied mine with power supply connection in the near future. Water Supply Water is being supplied from a nearby well near the mine. A small water tank is also proposed to construct office premises. This can be used for supply of water for mining work, spraying, watering the plants and drinking purposes. First Aid Primary First aid facility is proposed at the proposed mine office site. Mine office Permanent mine office is proposed at the western part of the applied M.L. area. Rest Shelter Permanent rest shelter is proposed. Latrines and Urinals At the mine site urinal and latrine facility are proposed. 7. b EMPLOYMENT POTENTIAL The mine owner shall employ Mine official (Mines Manager, Forman) in accordance with the provision of the 30 of RMMCR 2017. The workers to be employed shall be semi-skilled and unskilled. Most of them will employ from the nearby villages. With the increase in the production additional man power shall be required. Considering the OMS 12 in the Semi Mechanized mining the proposed organizational set up is given below: Mines Manager - 1 Mines Mate/Mines Foreman - 1 Geologist - 1 Watchmen - 1 Skilled Labours - 14 Unskilled Labours - 6
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CHAPTER 8.0 PROGRESSIVE MINE CLOSURE PLAN (UNDER RULE 29(5) (vi) of R.M.M.C.R. 2017) 8.1 Environment Base line information: Attach a note on the status of baseline Information with regard to the following. The applied area is characterized by the typical topography possess Hilly Land. The soil available in the area overlying on the mineral is not good for farming/cultivation. The land use pattern is given in the following table Table No.16: Existing Land use pattern within the applied M.L. area *All the areas are given in Hectares Pvt. Land Total 1 Pits & Quarries -- -- 2 Top soil Dump -- -- 3 Dumps -- -- 4 Stack Yard -- -- 5 Sub Grade stack Yard -- -- 6 Infrastructure ( Work shop, administrative -- -- Building) 7 Roads -- -- 8 Railway -- -- 9 Green Belt -- -- 10 Tailing Pond -- -- 11 Effluent Treatment Plant -- -- 12 Mineral Separation Plant -- -- 13 Township -- -- 14 Non Utilized 1.02 1.02 Total 1.02 1.02 8.1.1 Water regime and presence of water reservoir The average rainfall in the area is low it hardly exceeds 600 mm. The Ground water table is 50m (288MSL in rainy season) to 55m (283MSLin Dry Season). 8.1.2 Quality of Air, ambient noise level and water:- The quality of natural air could be said quite clean, and free from any harmful gases arising out of any industrial establishment/ complex including mining ventures. The area in and around the mine is free from any nuisance of repetitive nature such as noise. Thus, it is quite calm.
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8.1.3 Flora & Fauna: - There are 25 no. of babul tree & other bushes exist in the M.L. area. No Fauna exist in the M.L. area. 8.1.4 Climatic condition The climate in the area is dry with extreme temperature variation. The Temperature varies 430 to 460 C in summer and 20 to 50 C in winter. The avg. Rainfall is 600 mm Most of the rain falls during the period of July to September. 8.1.5 Human settlement No human settlement exists with in the applied area. The population in and around she applied area is very thin. The nearest human settlement area is the village Runija having population of about 350. The adjoining villages are: S. no. Village Distance 1. Runija About 1.2 km 2. Vasu About 0.9 km 3. Ajabara About 2.6 km 4. Adwas About 3.3 km 5. Jagat About 3.0 km *All data approximately 8.1.6 Public Building, Places of Worship and Monument:- No National Monument, place of Worship, Sanctuary, National Park, exist in and around the M.L. area. 8.1.7 Indicate any sanctuary is located in the vicinity of leasehold. No National Park/sanctuary falls within 10Km. of the M.L. area. 8.2 Impact Assessment: Attach an Environmental Impact Assessment Statement describing the impact of mining and beneficiation on environment on the following:- Impact of mining activities on the environment: Given below are the details of the assessment made for the likely impact of mining activities on the environment, both biotic and biotic:
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8.2.1 Land area Landscape As a result of mining activities there shall less effect on landscape. The Pvt. Land degradation is as shown below in the table No. 18 & 19 Table No.17: At the End of the five periods Particular Type of Land Total Area (Hectare) Pits Pvt. Land 0.6657 Dump Pvt. Land 0.0660 Top soil dump Pvt. Land 0.0119 Infrastructure Pvt. Land 0.0156 Mineral Stack yard Pvt. Land 0.0088 Table No.18: At the End of the Life of the Mine Particular Total Area (Hectare) Backfilled area 0.2311 Water reservoir 0.4361 Infrastructure 0.0100 Depth of the pit at the end of the 5th year is likely to be 24m (322mRL) 8.2.2 Air Quality: - The only source to pollute air is the generation of dust while undertaking the semi mechanized mining operation including sizing the mineral. But the level of dust concentration is practically of very low order. 8.2.3 Water Quality: - The mineral produced and the waste rocks generated are not likely to pollute the water quality in any manner. 8.2.4 Noise Level:- Generation of ground vibration and noise is practically under limit and low enough with the semi mechanized mining operation to have any adverse impact on this account to the workers and local inhabitants. 8.2.5 Vibrations Levels (due to blasting):- not applicable. 8.2.6 Water Regime:- In absence of water regime in near M.L. area no impact will anticipate on water regime. The Ground water table is 50m (288MSL in rainy season) to 55m (283MSLin Dry Season). 8.2.7 Acid mine drainage:- NA 8.2.8 Surface subsidence – NA 32
8.2.9 Socio-Economics: - by having an economic activity near the villages, the socio and demographical profile of the local habitants will get positive impact, by direct and indirect jobs. 8.2.10 Historical Monuments: No historical monument or building is present in the applied M.L. area. 8.3 Progressive reclamation Plan:- The Proposals of the Final Closure are based on the Geology and Topography of the region. At the end of the mining operation, a part shall be back filled and remaining part of the M.L. area would be used as water reservoir, the water reservoir would be fenced. The Backfilled and None utilized area would be used for afforestation after spreading topsoil over it. The local people would use the Buildings and Roads for their infrastructure facilities. 8.3.1 Mined Out Land Table-19: Mined Out Land (Hectare) Particular Present At the end of At the end of Life Mining Plan of Mine Broken Up Area NIL 0.6657 0.6672 Back Filled Area Nil Nil 0.2311 Water Reservoir Nil Nil 0.4361 *All the area are in Hectare Mined Out Land Planning The mined out land planning is required to be done to ensure that: a. As soon as the land matures, it shall be made ready for future use. b. At all the times mining pits and the roads shall be maintained in safe condition to prevent land slides etc. and stability shall not be disturbed. Water drainage shall be maintained and cleaned in a manner that surface water shall not cause quarry flooding. Land Use Pattern The applied M.L. area is having Pvt. Land. In general the area is mild Hilly. There is no village or human settlement in the M.L. area. Permanent vegetation in the area is also very less prominent. The present land use pattern is as indicated in the following Table:
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Table-20: Present land use pattern *All the areas are given in Hectares Pvt. Land Total 1 Pits & Quarries -- -- 2 Top soil Dump -- -- 3 Dumps -- -- 4 Stack Yard -- -- 5 Sub Grade stack Yard -- -- 6 Infrastructure ( Work shop, administrative -- -- Building) 7 Roads -- -- 8 Railway -- -- 9 Green Belt -- -- 10 Tailing Pond -- -- 11 Effluent Treatment Plant -- -- 12 Mineral Separation Plant -- -- 13 Township -- -- 14 Non Utilized 1.02 1.02 Total 1.02 1.02 Land reclamation & Tree plantations The land reclamation and afforestation proposals are presented in plate 8 of the Mining Plan. The applicant is committed to take care of and reclaim the applied mining area as proposed in the plan. A part shall be back filled and remaining part of the M.L. area would be used as water reservoir and a part of the remaining region would be used for plantation. Post Mining Land Use Plan As mining in the pits is not going to be completed during the period of this five-year period, this point is not applicable. Proposed Land pattern during next five years Table-21: Proposed Land use pattern during next five years S. No. *All the areas are given in Hectares Pvt. Land Total 1 Pits & Quarries 0.6657 0.6657 2 Top soil Dump 0.0119 0.0119 3 Dumps 0.0660 0.0660 4 Stack Yard 0.0088 0.0088 5 Sub Grade stack Yard 0.0244 0.0244 6 Infrastructure ( Work shop, administrative Building) 0.0156 0.0156 7 Roads -- -- 8 Railway -- -- 9 Green Belt 0.1125 0.1125 10 Tailing Pond -- -- 11 Effluent Treatment Plant -- -- 12 Mineral Separation Plant -- -- 13 Township -- -- 14 Non Utilized 0.1151 0.1151 Total 1.02 1.02 34
End Land Use Pattern at the end of the life of the mine At the end of the mining operation, a part shall be back filled and remaining part of the M.L. area would be used as water reservoir and a part of the remaining region would be used for plantation. The proposed end land use pattern is as indicated in the following Table. The proposed end land use pattern is as indicated in the following Table Table-22: Proposed end land use pattern *All the areas are given in Hectares Pvt. Land Total 1 Water Reservoir 0.4361 0.4361 2 Top soil Dump -- -- 3 Backfilled area 0.2311 0.2311 4 Stack Yard -- -- 5 Sub Grade stack Yard -- -- 6 Infrastructure ( Work shop, administrative 0.0100 0.0100 Building) 7 Roads -- -- 8 Railway -- -- 9 Green Belt 0.2944 0.2944 (other than Backfilled) 10 Tailing Pond -- -- 11 Effluent Treatment Plant -- -- 12 Mineral Separation Plant -- -- 13 Township -- -- 14 Non Utilized 0.0484 0.0484 Total 1.02 1.02 8.3.2 Generation & Stacking of top soil: Stacking near pillar B. 8.3.3 Tailing Dam Management: - No Tailing Dam is proposed. 8.3.4 Acid mine drainage, if any and its mitigation measures. No 8.3.5 Surface subsidence mitigation measures through backfilling of mine voids or by any other means and its monitoring mechanism. NA The information on protective measures for reclamation and rehabilitation works year wise may be provided as per the following table. 8.4 Disaster Management and Risk Assessment The proposed workings are by opencast Semi Mechanized mining method. Underground mining is not proposed. No tailing dam is proposed. Thus high risk accident like land 35 slide, subsidence, fire, seismic activities etc. are not expected. In case of accident a well- equipped First Aid station shall be available at mine site for giving first aid to injured persons. 8.5 Care and Maintenance during Temporary Discontinuance In case of temporary discontinuance of work, the mine workings will be in the watch of the Security Guard employed for the purpose. Before entering the labour into mine workings or faces during the resumption of work, the workings and faces are proposed to be inspected by Authorized person. 36
CHAPTER:-9 FINANCIAL ASSURANCE The applicant is required to submit the financial assurance for the area to be put to use for mining and allied activity at the end of plan period. Following table shows the calculation as per the CCOM’s Circular no. 02/10 S. Head Area put Additional Total Area considered Net area No. on use at requirement (in. Hact.) as fully reclaimed considered for start of during Plan & rehabilitated calculation Plan period (in. Hact.) (in. Hact.) (in Hact.) (in. Hact.) 1. Area under -- 0.6657 0.6657 -- 0.6657 mining 2. Storage for top -- 0.0119 0.0119 -- 0.0119 soil 3. Overburden/ -- 0.0660 0.0660 -- 0.0660 dump 4. Mineral storage -- 0.0088 0.0088 -- 0.0088 5. Infrastructure (Workshop, -- 0.0156 0.0156 -- 0.0156 administrative building etc.) 6. Road ------7. Railway ------8. Green Belt -- 0.1125 0.1125 -- 0.1125 9. Tailing pond ------10. Effluent ------Treatment 11. Mineral ------Separation Plant 12. Township area ------13. Sub Grade Stack -- 0.0244 0.0244 -- 0.0244 Yard GRAND TOTAL 0.9049 Proposed area to be put to use at the end of plan period is 0.9049Hect. Financial assurance for semi Mechanized Mining is calculated at the rate of Rs.-25000/- per hectares of area to be put to use for 0.9049hectares. The financial assurance comes are 22623Rupees. The applicant will be submitted Bank guarantee before agreement of the M.L. area.
Prabhu Singh HEMRAJ BANTHIA, Reg. No. RQP/UDP/216/2001 - A, Signature………….. (Renewed up to 01/02/2021) 37
Part -B 9.0 CERTIFICATE / UNDERTAKINGS /CONSENT LATTER
Shri Prabhu Singh
R/o - Fatehgarh Tehsil - Masuda, Dsitt. - Ajmer (Raj.)
A. CONSENT LATTER/UNDERTAKINGS/CERTIFICATE FROM THE APPLICANT
1. Mining Plan with Progressive Mine closure plan in respect of Runija Quartz & Feldspar Mine (M.L. No. - 07/2018) over an area of 1.02hect. in Village - Runija, Tehsil -Girwa, Dist.- Udaipur (Raj.) under Rule 29(5) & 29(5)(vi) of R.M.M.C.R., 2017 has been prepared by RQP Shri Hemraj Banthia, RQP/UDP/216/2001 - A;. 2. This is to request the Supdt. Mining Engineer, Udaipur, circle Udaipur to make further correspondence regarding any regarding of Mining Plan with the said recognized person at his following address:
Hemraj Banthia, Mining Engineer & RQP Reg. No. RQP/UDP/216/2001 - A, (Renewed up to 01/02/2021) 103 Rajhans Complex, Bedla Road, Udaipur-313001 Tel. No. 0294 - 2419950, Mobile - 9929555377 E-mail:- [email protected] We herby undertake that all modification/updating as made in the said scheme of mining by the said recognized person be deemed to have been made with our knowledge and consent and shall be acceptable on us and binding in all respects. 3. It is certified that the CCOM’s Circular No. 2/10 will be implemented and complied with when an authorized agency is approved by the State Government. It is certified that the Progressive Mine Closure Plan of Runija, Quartz & Feldspar mine (M.L. No. - 07/2018) of Shri Prabhu Singh S/o Shri Ram Singh Rawat R/o - Fatehgarh Tehsil - Masuda, Dsitt. - Ajmer (Raj.) over an area of 1.02hect. complies, with all statutory Rules, Regulations, Orders made by the Central Government or 38
State Government, Statutory organizations, Court etc. which have been taken into consideration and Wherever any specific permission is required, the applicant will approach the concerned authorities. The information furnished in the Progressive Mine Closure plan is true and correct to the best of our knowledge and records. 4. The provisions of mines Act, Rules and Regulations made there under have been observed in the scheme of mining over an area of 1.02hect. In Village- Runija, Tehsil - Girwa, Dist.- Udaipur (Raj.) belonging to Mine and where specific permissions are required the applicant will approach the D.G.M.S. Further standards prescribed by D.G.M.S. in respect of miners’ health will be strictly implemented”
Date :- …/…./2019 Prabhu Singh Place:- …………….. Signature
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HEMRAJ BANTHIA, Mining Engineer & RQP Registration No.: RQP/UDP/216/2001 - A, (Renewed up to 01/02/2021) ______
103 Rajhans Complex, Bedla Road, Udaipur-313001 Tel. No. 0294 - 2419950, Mobile - 9929555377 E-mail:- [email protected]
CERTIFICATE FROM RQP
The provisions of under Rule 29 (5) & 29 (5)(vi) of R.M.M.C.R., 2017 have been observed in the preparation of the Mining Plan with Progressive Mine closure plan for Runija Quartz & Feldspar mine (M.L. No. - 07/2018) over an area of 1.02hect. of Shri Prabhu Singh S/o Shri Ram Singh Rawat R/o - Fatehgarh Tehsil - Masuda, Dsitt. - Ajmer (Raj.) State and whenever specific permissions are required, the applicant will approach the concerned authorities of Supdt. Mining Engineer, Udaipur, circle Udaipur The information furnished in the scheme of mining with progressive mine closure plan is true and correct to the best of our knowledge.
Date:…/…/2019 HEMRAJ BANTHIA Place: RQP/UDP/216/2001 - A, (Renewed up to 01/02/2021) 40
CONTENTS Ch. Particular Page No. Introduction 1 1. General 2 2. Location and Accessibility 3 PART-A 1. Geology and Exploration 5 2. Mining 12 3. Mine Drainage 22 4. Stacking of Mineral Reject/ sub grade Material and 23 Disposal of waste
5. Use of Mineral 25 6. Processing of ROM and Mineral Reject 26 7. Other 27 8. Progressive Mine Closure Plan under rule 29(5) (vi) of 28 R.M.M.C.R. 2017
9. Financial Assurance 35 PART-B 1. Consent letter/Undertaking /Certificate from the Applicant 36-37 2. Certificate from RQP 38
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PLATES S.No. Particular Scale Plate 1. Key cum Location Plan, and Land Use Pattern 1:50000 1 2. Route Plan --- 2 3. Surface Plan 1:1000 3 4. Surface Geological Plan & Sections 1:1000 4 5. Mine Layout Plan 1:1000 5 6. Proposed Five Year Development Plan and 1:1000 6 Sections 7. Environment Plan 1:5000 7 8. Progressive Closure Plan 1:1000 8 9. Conceptual Closure Plan 1:1000 9
List of Annexure
Sr. Description Annexure No. No. 1 Copy of LOI Letter 1 2 Copy of Applied Map 2 3 Copy of Demarcation report & Pre demarcation report 3 4 Copy of Khasra Map & Jamabandi report 4 5 RQP Certificate 5