PRE FEASIBILITY REPORT
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- Gabriella Sanders
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1 PRE FEASIBILITY REPORT FOR PROPOSED BULK DRUGS AND BULK DRUG INTERMEDIATES MANUFACTURING UNIT Of M/S. OSWAL UDHYOG Plot No. 8006, GIDC Estate, Ankleshwar , Dist: Bharuch, Gujarat 1
2 CONTENTS Sr. Description Page No. No. 1. Executive Summary 3 2. Introduction of the Project/Background information Project Description Site Analysis Planning Brief Proposed Infrastructure Rehabilitation and resettlement (R & R) Plan Project Schedule & Cost Estimates Analysis of Proposal (Final Recommendations) 21 2
3 1.0 EXECUTIVE SUMMARY 1.1 Company Profile Introduction M/S. OSWAL UDHYOG proposes Bulk drugs & Bulk drug intermediates manufacturing unit at Plot No. 8006, GIDC Estate, Ankleshwar , Tal: Ankleshwar, Dist: Bharuch, Gujarat. Proposed project cost will be Rs. 2 Crores. 1.2 Project Details LIST OF PRODUCTS Sr. No. NAME OF PRODUCTS CAS No. PROPOSED Quantity (MT/Month) Bulk Drugs 1. Metoclopramide Hydrochloride Cetrizine Hydrochloride Ondensetron Hydrochloride Trifluoperazine Hydrochloride Mebendazole Tolperison Hydrochloride Loratidine Fenofibrate and its intermediate Telmisartan and its intermediate Nebivilol and its intermediate Atorvastatin Phenylephrine HCl Ambroxol Diclofenac Sodium Ofloxacin Sub Total 5 Bulk Drug Intermediates Diamino Benzophenone Acetyl Para amino Salicylic Acid Acetamido, 2 Methoxy, Benzoic Acid Methyl Ester 5 Chloro, 4 Acetamido 2, Methoxy Benzoic Acid Methyl Ester Chloro Benzhydryl Chloride Chloro Benzhydryl Piperazine Cetrizine Base Sub Total 3.5 3
4 Grand Total 8.5 By Products: Sr. No. NAME OF PRODUCTS CAS No. PROPOSED Quantity (MT/Month) 1. Sodium Sulphite (25%) Piperazine ML (22%) AlCl LIST OF RAW MATERIALS Product Raw Material MT/MT Metoclopramide Hydrochloride Potassium Hydroxide (KOH) 0.51 Meta Aminophenol (MAP) 0.91 Carbon Dioxide (CO 2 ) Gas 0.37 Acetic Anhydride 1.12 Hydrochloric Acid (HCl) 1.44 Acetone 0.04 Potassium Carbonate (K 2 CO 3 ) 0.91 Di Methyl Sulphate (DMS) 0.74 Acetic Acid 1.91 Chlorine (Cl 2 ) Gas 0.3 Toluene 0.88 N, N Di Ethyl Ethylene Di Amine (NND) 0.44 Hydrochloric Acid (HCl) (30%) 0.88 Soda Ash 0.23 Iso Propylalcohol 0.09 Sodium Hydroxide (NaOH) Flakes 0.3 Cetrizine Hydrochloride Methanol 0.72 Sodium Borohydride 0.07 p Chloro Benzophenone (PCBP) 0.91 Benzene 0.12 Thionyl Chloride (TC) 0.55 Piperazine 0.36 Sodium Hydroxide (NaOH) 0.7 Toluene Chloro Ethanol (2 CE) Tri Ethyl Amine (TEA) Methylene Dichloride (MDC) 0.46 Potassium Hydroxide (KOH)
5 Sodium Monochloro Acetate (SMCA) 0.49 Dimethyl Form amide (DMF) 0.02 Hydrochloric Acid Gas (HCl) 0.31 Acetone 0.41 Ondensetron Hydrochloride Ondensetron Base 0.91 Iso Propyl Alcohol (IPA) 3.54 Sodium Hydroxide (NaOH) 0.05 HCl 35% ,Bromo, 3 Chloro Propane (BCP) 0.50 N-Methyl Piperazine (NMP) 0.32 Toluene 0.47 Sodium Hydroxide (NaOH) , Trifluro Methyl Phenol Thiazine (TPZ) 0.83 Caustic Potash 0.18 Hydrochloric Acid Gas (HCl) 0.15 Methyl Iso Butyl Ketone ( MIBK) 0.09 Trifluoperazine Hydrochloride Mebendazole Nitro Chloro Benzoic Acid (NCBA) 0.76 Thionyl Chloride (TC) 0.47 Benzene 1.47 Aluminium Chloride Anhydrous (AlCl3) 0.82 Liquid Ammonia (NH3) 2.59 Polysulphide 0.44 Methanol 0.47 Di Methyl Sulphite 0.82 Methyl Chloro Formate (MCF) 0.62 Sodium Hydroxide (NaOH) Lye ,4 Di Amino Benzo Phenone (DABP) 0.88 Acetic Acid 0.38 Thiourea 0.71 Tolpersone Hydrochloride Piperidine 0.36 IPA 0.03 HCl ,Me-Propiophenone 0.64 Paraformaldehyde 0.19 Acetone 0.3 Methanol 0.44 Charcoal 0.01 Hyflow , Diamino Benzophenone Nitro Chloro Benzo Phenone (NCBP) 0.87 Thionyl Chloride (TC) 0.53 Benzene 1.67 Aluminium Chloride Anhydrous (AlCl3)
6 Liquid Ammonia (NH3) 2.93 Polysulphide 0.50 Methanol 0.53 Loratadine M Sulphuric Acid 0.9 NaOH 3.25 MDC 3.22 SOCl DMF 0.14 AlCl Hyflow 0.63 Ethylene Dibromide 0.24 THF 0.58 Iodine 0.01 HCl 1.55 Chloroform 1.40 Hexane 2.25 Toluene 0.61 NaHCO Acetonitrile 0.16 Fenofibrate and its intermediate 4-CHBP 1 Acetone 0.36 Caustic soda 1.28 Chloroform 1.26 H 2 SO Activated charcoal 0.11 Sodium bicarbonate 1.2 IPA Sodium bicarbonate 0.63 Hyflow 0.02 MDC 0.07 IPA 3 Telmisartan and its intermediate Methanol Amino 3-Methylbenzoic acid 1.48 Conc. Sulphuric Acid 1.42 Liq. NH MDC 5.67 TEA 1.31 Butyl Chloride 1.29 Sodium Bicarbonate 0.24 Hexane 5.09 Fuming Nitric Acid
7 Maleic Anhydride 1.4 AlCl EDC 3.04 Para Fluoro Anisole 1.46 HCl 3.32 Hexane 2.67 Acetic Acid 0.85 Sulphuric Acid 1.18 Pd/c 0.41 Hyflow 0.82 Sodium Borohydride 1.16 THF 1.76 MDC 3.49 Sodium Carbonate 0.89 DMSO 0.55 Oxahl Chloride 3.27 TEA 6.49 Sodium Hydride 0.98 Methanol Benzyl Amine 0.33 Nebivilol and its intermediate Acetonitrile 8.16 Atorvastatin Ethyl-4,Cyano3-hydroxy Butanol 0.54 THF 0.28 Diisopropyl amine 0.66 N-Butyl Lithium 0.37 Tert-Butyl acetate 0.91 HCl 0.41 Ethyl Acetate 0.34 NaCl 0.65 Methanol 0.34 DEMB (50 % Sol n ) 0.38 Sodium Borohydride 0.24 Acetic Acid 0.53 Dimethoxy Propane 0.98 Methane Sulphonic Acid 0.02 Sodium Bicarbonate 1.08 n-hexane 0.04 Raney Nickel 0.54 Pivalic Acid 0.13 Toluene 0.10 Activated Carbon 0.05 Methyl Tert Butyl
8 3 Hydroxy Acetophenone 1.80 Ethyl Acetate 0.13 Bromine 0.78 Toluene 0.56 Sodium Bi Carbonate Solution Methyl Benzyl Amine 2.92 IPA HCl 1.44 Methanol 0.56 Palladium Charcoal Catalyst 0.28 Carbon 0.05 Liq. Ammonia 4.87 IPA 0.13 L(+)Tartaric Acid 1.36 Acetic Anhydride 1.80 Sulphuric Acid 0.37 IPA HCl 20% 0.8 Carbon 0.04 Phenylephrine HCl Acetone 0.06 Ambroxol Methanol 0.17 Methyl anthranilate 0.54 Bromine 0.63 Liq. Ammonia 0.15 Hydrogen peroxide 0.20 THF 0.12 Sodium Boro hydride 0.22 Acetic acid 0.02 Toluene 0.39 Charcoal 0.04 Manganese dioxide 1.93 Trans 4-amino Cyclohexanol 0.29 IPA 0.16 Act carbon 0.01 HCl 0.24 Diclofenac Sodium 2,6 Dichloro phenol 0.65 Toluene 0.91 Potassium carbonate 0.35 Mono Methyl Chloro Acetic Acid 0.48 Aniline 0.36 Sodium Methoxide Solution 0.71 Chloro Acetyl Chloride 0.49 Ofloxacin Ofloxacin q acid 0.83 Methanol
9 N methyl Piperazine 0.35 N Butanol 0.49 Activated carbon 0.03 Acetic acid 0.29 Liquor ammonia Diamino Benzophenone NCBA 0.99 Thionyl Chloride 0.61 Benzene 1.91 AlCl NCBP 1.45 Liq. NH NABP 1.34 Polysulphide 0.57 Methanol 0.61 Acetyl Para amino Salicylic Acid KOH 0.49 MAP 0.87 CO 2 Gas 0.36 Acetic Anhydride 1.07 HCl Acetamido, 2 Methoxy, KOH 0.54 Benzoic Acid Methyl Ester MAP 0.97 CO 2 Gas 0.40 Acetic Anhydride 1.19 HCl 1.21 Acetone 0.05 K 2 CO DMS Chloro, 4 Acetamido 2, KOH 0.58 Acid Methoxy Benzoic Methyl MAP 1.03 Ester CO 2 Gas 0.42 Acetic Anhydride 1.27 HCl 1.29 Acetone 0.05 K 2 CO DMS 0.84 Cl 2 Gas Chloro Benzhydryl Chloride Methanol 0.21 Sodium Boro hydride 0.02 PCBP 0.26 Benzene 0.68 Thionyl Chloride
10 4 Chloro Benzhydryl Piperazine Methanol 0.72 Sodium Boro hydride 0.07 PCBP 0.91 Benzene 0.04 Thionyl Chloride 0.55 Piperazine 0.36 NaOH 0.70 Cetrizine Base Methanol 0.13 Sodium Boro hydride 0.01 PCBP 0.16 Benzene 0.43 Thionyl Chloride 0.10 Piperazine 0.06 NaOH 0.12 Toluene CE+TEA 0.15 MDC 0.86 KOH 0.04 SMCA 0.09 DMF 0.01 Acetone Green Belt Development Company will develop an effective green belt within the factory and on periphery of the factory. In addition to this, majority of the vacant land shall be planted with trees, shrubs and grasses. 1.4 Power & Fuel Requirement Power required: Power Requirement: 250 KVA from DGVCL D.G. Set: 150 KVA Fuel Requirement: Agro waste: 4 MT/Day HSD: 20 Lit/Hr 1.5 Water Requirement and Wastewater Generation & Treatment Source of water will be met through GIDC Water Supply. Total water requirement will be 19.6 KL/Day from GIDC. Total 8.2 KL/Day (6.6 KL/Day Industrial KL/Day Domestic) of effluent shall be generated. 6.6 KL/Day industrial effluents will be treated in ETP 10
11 consisting of primary treatment and then sent to CETP for further treatment & disposal. Domestic wastewater (1.6 KL/Day) will be discharged into septic tank & soak pit. 1.6 Air Pollution Source and Control Management The source of air pollution due to the project will be Flue gas emission& process emission. Flue Gas Emission 1. Details of Flue Gas Stack; Stack Attached to Thermo pack Boiler SOURCES OF GASESOUS EMISSIONS STACK Capacity 3 Lack KCal /Hr Fuel Used Agro waste: 1.5 MT/Day Type of Emissions SO 2 NOx SPM Permissible Limits 262 mg/nm 3 94 mg/nm mg/nm 3 Stack Height 30 meters Stack Diameter at the Top 600 mm Multicyclone Separator with bag APCM filter 2. Details of Flue Gas Stack; Stack Attached To Steam Boiler SOURCES OF GASESOUS EMISSIONS STACK Capacity 1.5 TPH Fuel Used Agro waste: 2.5 MT/Day Type of Emissions SO 2 NOx SPM Permissible Limits 262 mg/nm 3 94 mg/nm mg/nm 3 Stack Height 30 meters Stack Diameter at the Top 600 mm Multicyclone Separator with bag APCM filter 3. Details of Flue Gas Stack; Stack Attached To D. G. Set SOURCES OF GASESOUS EMISSIONS STACK Capacity D.G.Set: 150 KVA Fuel Used HSD: 20 Lit/Hr Type of Emissions SO 2 NOx SPM Permissible Limits 262 mg/nm 3 94 mg/nm mg/nm 3 Stack Height 11 meters 4. Details of Process Vent; Vent Attached To Process Sr. Stack attached to Stack Air Pollution Parameter Permissible No. Height Control System Limit Proposed 11
12 1 Process Vent 11 m Two stage Alkali + Water scrubber HCl 20 mg/nm 3 SO 2 40 mg/nm Hazardous Waste Management Type of Schedule Source Quantity Disposal Method Waste Category ETP waste 34.3 ETP 1.0 MT/ Month Collection, Storage, Transportation & Disposal to TSDF site Used Oil 5.1 Plant & 0.05 KL/ Month Collection, Storage, Transportation & Machinery sale to GPCB authorized recycler Discarded Containers/ Bags/ Carboys 33.3 Process Bags = 500 Nos. / Month, Drums = 100 Nos. / Month Collection, Storage, Transportation, Decontamination & sale to registered vendor. Distillation 20.3 Process 1.0 MT/ Month Collection, Storage, Transportation & Residue Disposal to Incinerator site or sent to cement industries for co processing Spent Catalyst Process 0.2 MT/Month Collection, Storage, Transportation & Disposal to Incinerator site or return to supplier Spent Carbon Process 0.5 MT/Month Collection, Storage, Transportation & Disposal to Incineration site or sent to cement industries for co processing 12
13 Storage Details of Hazardous Chemicals Sr. Name of the Maximum Mode of Actual State & Possible type of No Hazardous Storage Storage Storage Operating Hazards Substance pressure & temperature 1 Acetic Anhydride 2 MT Drum 200 Lit NTP Flammable/Toxic 2 HCl 10 MT Tank 10 MT x 1 NTP Corrosive 3 Acetone 1 MT Drum 200 Lit NTP Flammable/Toxic 4 Acetic Acid 1 MT Drum 200 Lit NTP Corrosive 5 Chlorine 1 MT Tonner 900 Kg 7 Kg/cm2 Toxic and Ambient Temp. 6 Toluene 1 MT Drum 5 MT x 1 NTP Flammable 7 Methanol 1 MT Drum 200 Lit NTP Flammable 8 2 Chloro Ethanol 0.2 MT Drum 200 Lit NTP Flammable 9 Tri Ethyl Amine 0.2 MT Drum 200 Lit NTP Flammable 10 MDC 0.22 MT Drum 200 Lit NTP Toxic 11 IPA 0.3 MT Drum 200 Lit NTP Flammable Liq. Ammonia 12 (25%) 0.6 MT Drum 200 Lit NTP Toxic 13 Benzene 0.6 MT Drum 200 Lit NTP Flammable 14 Thionyl Chloride 0.6 MT Drum 200 Lit NTP Corrosive 15 MDC 0.6 MT Drum 200 Lit NTP Toxic 16 DMF 0.6 MT Drum 200 Lit NTP Flammable 17 TEA 0.2 MT Drum 200 Lit NTP Flammable 18 n Hexane 0.2 MT Drum 200 Lit NTP Toxic 19 Ethyl Acetate 0.2 MT Drum 200 Lit NTP Flammable 20 Sulphuric Acid 10 MT Tank 10 MT x 1 NTP Corrosive 13
14 2.0 INTRODUCTION OF THE PROJECT/BACKGROUND INFORMATION 2.1 Identification of the project and project proponent. In case of mining project, a copy of mining lease/letter of intent should be given. Identification of the project Proposed bulk drugs and Bulk drug intermediates manufacturing unit. Identification of the project proponent Presently following is the Proprietor of the company: 1. Mrs. Mamtaben Dobaria 2.2 Brief description of nature of the Project Proposed bulk drugs and Bulk drug intermediates manufacturing unit. 2.3 Need for the project and its importance to the country and or region The objective is to be achieved by: Consolidating Business. By constantly upgrading the product range. Continuously reducing the Costs & improving Quality. To generate local employment. 2.4 Demands-Supply Gap Based on our informal survey of the market with our current customers and various traders, we have found that there is a big potential for the range of the products we are planning. 2.5 Imports vs. Indigenous production Based on the current cost of indigenous raw materials and the non availability of some materials, we will have to import some of the key raw materials as they are not available indigenously. This will make us very competitive against imported finished products and we will be able to increase the export of our finished products. 2.6 Export possibility There is export potential of our proposed products. 2.7 Domestic/Export Markets There is export potential as well as demand in local market. 2.8 Employment Generation (Direct and Indirect) due to project. Employment would be as per prevailing norms of state government for skilled and unskilled people for the proposed project. 14
15 3.0 Project Description 3.1 Type of Project including interlinked and interdependent projects, if any. Proposed bulk drugs and Bulk drug intermediates manufacturing unit. Category: A-5(f) 3.2 Location (map showing general location, specific location and project boundary & project site layout) with coordinates. Map showing general location 15
16 Plant Layout 16
17 3.3 Details of alternate sites considered and the basis of selecting the proposed site, particularly the environmental considerations gone into should be highlighted. Major factors involved in the selection of site are listed below: Existing purchased plot. Site is very well connected by road Proximity to Raw Material suppliers Availability of sufficient land free from cultivation Availability of power evacuation facilities Availability of water for industrial use Modern infrastructure support and amenities at par with industrial estates in other global markets, including: Efficient transport facilities within the industrial estate and to & fro the city area. Environment-friendly zone. Uninterrupted power supply. 3.4 Size or Magnitude of Operation Please refer Annexure-I of Form-I. 3.5 Project Description with process details (a schematic diagram/flow chart showing the project layout, components of the project etc. should be given) Please refer Annexure-III in Form-I. 3.6 Raw material required along with estimated quantity, likely source, marketing area of final products. Mode of transport of raw materials and finished products. Please refer Annexure-I in Form-I. 3.7 Resource optimization/recycling and reuse envisaged in the project, if any, should be briefly outlined. After set-up of unit, every effort will put to recycle/reuse the water. 3.8 Availability of water its source, energy/power requirement and source should be given. Water Source Total water requirement shall be met through GIDC water supply. Power required: Power Requirement: 250 KVA from DGVCL D.G. Set: 150 KVA Fuel Requirement: Agro waste: 4 MT/Day HSD: 20 Lit/Hr 17
18 3.9 Quantity of wastes to be generated (liquid and solid) and scheme for their management/disposal. Please refer Annexure - V & VI Schematic representations of the feasibility drawing which give information of EIA purpose. ACTIVITIES OVERVIEW OF E. I. A. STUDIES SOURCE OF INFORMATION RECONNAISSANCE SURVEY OF EXISTING PLANT INTRODUCTION ANNUAL REPORT MARKET ASSESSMENT FINANCIAL REPORT PROJECT REPORT MONITORING OF AIR, WATER & SOIL QUALITY & NOISE LEVELS. DATA ON METEOROLOGY SOCIO ECONOMIC STATUS & BASIC AMENITIES. SITE VISITS BY AND INTERVIEWS WITH LOCALS BASELINE ENVIRONMENTAL STATUS SOCIOECONOMIC STATUS & INFRASTRUCTURE PROPOSED EXPANSION PLANT ENVIRONMENTAL INFORMATION CENTRE CENTRAL GROUND WATER BOARD GUJARAT POLLUTION CONTROL BOARD (GPCB) PUBLIC HEALTH ENGINEERING DEPT. AGRICULTURE DEPARTMENT FOREST DEPARTMENT IRRIGATION DEPARTMENT EMPLOYMENT EXCHANGE HEALTH CENTER CENSUS DEPT. INDIAN METEOROLOGICAL DEPT. IDENTIFICATION & ASSESSMENT OF IMPACTS EVALUATION OF IMPACTS BY MATRIX METHOD IMPACTS METHODOLOGY OF IMPACT ASSESSMENT FACILITY DESCRIPTION DESCRIPTION OF EFFLUENT TREATMENT PLAN, AIR POLLUTION CONTROL, HAZARDOUS WASTE MANAGEMENT, GREEN BELT DEVELOPMENT MONITORING PROGRAM ENVIRONMENTAL MANAGEMENT PLAN CONSEQUENCE ANALYSIS PREPARATION OF DISASTER MANAGEMENT PLAN RISK ANALYSIS STUDIES & DISASTER MANAGEMENT PLAN SAFETY, HEALTH & ENVIRONMENTAL POLICY, GUIDELINES BY DIRECTOR GENERAL OF FACTORY SAFETY, MINISTRY OF LABOR. 18
19 4.0 Site Analysis 4.1 Connectivity Site is very well connected by road & rail Availability of power evacuation facilities Availability of water for industrial use 4.2 Land Form, Land Use and Land Ownership It will be incorporated in EIA Studies. 4.3 Topography (along with map) We will incorporate topography in EIA Studies. 4.4 Existing land use pattern (agriculture, non-agriculture, forest, water bodies (including area under CRZ)), shortest distances from the periphery of the project to periphery of the forests, national park, wild life sanctuary, eco sensitive areas, water bodies (distance from HFL of the river), CRZ. In case of the notified industrial area, a copy of the Gazette notification should be given. It will be incorporated in EIA Studies. CRZ Clearance is not applicable. 4.5 Existing Infrastructure This is proposed project activity so now there is only open land. 4.6 Soil Classification It will be incorporated in EIA Studies. 4.7 Climatic data from secondary sources. Primary source: our own weather station & Secondary Sources: Indian Meteorological Department, Ahmadabad. 4.8 Social infrastructure available. Depending on the growth of the company the required social infrastructure will be provided. 5.0 Planning Brief 5.1 Planning Concept (type of industries, facilities, transportation etc) Town and Country planning/development authority classification. Type of Industry: Proposed project of bulk drugs and Bulk drug intermediates manufacturing unit. 5.2 Population Projection It will be incorporated in EIA Studies. 5.3 Land use planning (breakup along with green belt etc.) It will be incorporated in EIA Study. 19
20 5.4 Assessment of Infrastructure Demand (Physical & Social) It will be incorporated in EIA Studies. 5.5 Amenities/Facilities It will be incorporated in EIA Studies. 6.0 Proposed Infrastructure 6.1 Industrial Area (Processing Area) Processing Area (plant area, ETP Area and Utility Area, Admin) = 4,000 m Residential Area (Non Processing Area) Non Processing Area (Green belt, Raw material storage area, open/road area, Parking, Gate) = 4,713.7 m Green Belt Company will develop an effective green belt within the factory and on periphery of the factory. In addition to this, majority of the vacant land shall be planted with trees, shrubs and grasses. 6.4 Social Infrastructure Depending on the growth of the company the required social infrastructure will be provided. 6.5 Connectivity (Traffic and Transportation Road/ Rail/Metro/ Water ways etc) Site is very well connected by road & railway. 6.6 Drinking water Management (Source & Supply of water) Water requirement will be met through GIDC water supply. 6.7 Sewerage System Sewage pipes will be laid in entire company for the removal and disposal of mainly nonharmful liquid wastes from the offices, canteen and domestic waste coming from different sections. These liquid wastes will be treated and disposed by septic tank and soak pit. 6.8 Solid Waste Management Please refer Section 1.7, Page No. 12 in Pre-Feasibility Report. 7.0 Rehabilitation and Resettlement (R & R) Plan 7.1 Policy to be adopted (central/state) in respect of the project affected including home ousters, land ousters and landless laborers (a brief outline to be given) 20
21 There is no habitation on the proposed project area and it is open industrial land which is purchased by company for development of Company, so that R & R policy is not applicable to this project. There shall be no displacement of any population in project area. 8. Project Schedule & Cost Estimates 8.1 Likely date of start of construction and likely date of completion (Time schedule for the project to be given). We shall start construction after getting environmental clearance. We shall start production upon making application for CCA. 8.2 Estimated Project cost along with analysis in terms of economic viability of the project. Total costs of the project will Rs. 2 Crores. 9. Analysis of Proposal (Final Recommendations) 9.1 Financial and social benefits with special emphasis on the benefit to be local people including tribal population, if any, in the area. Employment would be as per prevailing norms of state government for skilled and unskilled people for the proposed project. Social Welfare shall be done. Cordial relation with the industry shall be established and representation shall be made to villagers for help for creation of facilities related to health, education, etc. 21