If available, use data from the last fiscal year or the last quarter and state the chosen time-period in the table. Describe to the best of your knowledge the failure, the process and exact location (e.g., which (part of the) machine/process), as well as the cause (see further guidance below the table) and the number of failures. Inferior raw material and chemical quality, inadequate handling or unprotected transportation of products are just a few examples.įor an overview of your most frequent failure rates, fill out the table below. While most failures occur during the processing, their cause might be found in-house as well as beyond your company’s gates, at your suppliers’ or shipper’s side. Minimising failure rates supports your efforts to deliver products of prime quality and should thus be seen as a key strategy for your business success. The aim of this option is to increase product quality by minimising failure rates.Your products are the figureheads of your company, having a significant impact on your company’s reputation.
PROCESS FLOW DIAGRAM OF EFFLUENT TREATMENT PLANT (CHART 3)Įnvironment, Health & Safety committee made up to identify and resolve health and safety issues in the workplace. Secondary Containment/Abstract MSDS/Labeling/ Storage/Temperature Maintain/RSL/ MRSLĪcetic Acid, Hydrogen Peroxide, Hydrogen Peroxide Killer, Detergent, Dies, Blissing Latest machine in TEXTILE – 60 to 70 Liters World wise Standard Data (per kg) – 70 to 80 Liters Water use per kg Fabrics in TEXTILE – 121 to 130 Liters After Purification, Water will send for final discharge Water comes from Secondary Clarifier & Sludge Thickening Clarifier. To aware for safe and healthy environment. To assist in creating a safe & healthy workplace. Water and Sludge Separation Use DC electricity (Water and Sludge breakdown) Water Separation from Sludge (Live sludge) – (TOYO) of EPCC-13 Package for DM PLANT, ETP PLANT AND ALLIED FACILITIES for the “BARAUNI REFINERY CAPACITY EXPANSION to 9.Flow Chart for Effluent Treatment Plant ETP Effluent Treatment Plant (ETP) – Process Flow Diagram (Chart 2) SL
The scope of work shall include Consistency Checks, HAZOP study, Process and Basic Engineering, Residual Process Engineering, Detailed Engineering including design, Project Management, site enabling jobs, Topography survey and Soil Investigation, underground scanning, Total Procurement (including but not limited to chemicals, catalysts, media, nutrient, microbes, solvents, special tools and tackles, pre-commissioning spares, commissioning spares, startup spares, mandatory spares, consumables), Fabrication, Manufacturing, Quality Assurance, Inspection & Expediting, Third Party Inspection, Supplies, Transportation, Insurance, Handling and Storage of all Equipment, Materials, items and other Construction Materials at site, Construction Management & Supervision, Construction and Installation (including Civil, Electrical and Instrumentation works) installation of Tie-in points of Piping, Instrumentation, Electrical, Testing, Insulation, Painting, First fill of chemicals, microbes, nutrients, solvents, media and lubricants, Obtaining all Statutory Approvals (except for Environment Clearance which shall be obtained by OWNER), Mechanical Completion of Plant, Pre-commissioning, Commissioning, Start-up, Performance Guarantee Test Runs, Preparation of plant specific operating manuals, Training and other services, Operation and Maintenance for 5 Years for RO-DM-CPU system, Drinking Water System and Phenol cyanide treatment system, contract closure activities including Final invoice / billing and document hand over and handing over the entire Plant including spares with Final and “As Built” documentation to OWNER on single point responsibility basis (Lump Sum Turn Key – LSTK Basis), based on FEED Package provided by Toyo Engineering India Pvt. Name of Work: EPCC PACKAGE (EPCC-13) FOR DM PLANT, ETP PLANT AND ALLIED FACILITIES FOR “BARAUNI REFINERY CAPACITY EXPANSION TO 9.0 MMTPA PROJECT” AT IOCL, BARAUNI REFINERY, BIHAR, INDIA.