#كورسات_الهندسة_الكميائية PROCESS AND PETROCHEMICAIL 1. Natural Gas Processing Technology. - To review gas laws and calculations of natural gas properties and their industrial applications. - To study different packages of gas processing including inlet separation, condensate stabilization, sweeting processes, dehydration processes (Glycol, M.Sieve, etc.), refrigeration, LPG fractionation and gas sweeting processes 2. Crude Oil Processing Technology. - To study theory of different operations in oil refinery. - To study different packages of oil refining technologies including desalting, fractionation, distillation, hydro treating, catalytic reforming gasoline specifications and blending hydro cracking. 3. Process Control Fundamentals & DCS. - To dominate the control strategies in different applications of oil & gas, petrochemicals industries which include traditional strategies as feedback, feed forward..etc. and advanced strategies as Fuzzy, Neural network and adaptive control. - To master sequential control process which applied in manufacturing industries. 4. Pumps & Compressors Process Point of View. - To understand the operating and applications of different types of (gas compressor, pumps and gas turbine). - To select and size gas compressor for different application. - To study control logic and protection system using different types of controller. 5. Distillation towers internals & Static Refining Equipment. -- Course Outlines: - Towers – Heat Exchangers - Separators – Valves - Furnace. 6.HYSYS Process Simulation using Aspen HYSYS V 8.0 A very important course for Process & Chemical Engineers Presented by: Eng. Mohamed ELhossieny Why Aspen HYSYS? Aspen HYSYS is a market-leading process modeling tool for conceptual design, optimization, business planning, asset management, and performance monitoring for oil & gas production, gas processing, petroleum refining, and air separation industries. Aspen HYSYS is a core element of AspenTech’s aspenONE™ Process Engineering applications. Objectives • Learn to build, navigate and optimize process simulations using Aspen HYSYS • Learn the efficient use of different HYSYS functions to build steady state process simulations Who Should Attend • New engineering graduates/technologists who will be using Aspen HYSYS in their daily work • Process engineers doing process design and optimization projects and studies • Plant engineers checking plant performance under different operating conditions • R&D engineers and researchers using Aspen HYSYS for process synthesis Prerequisites • A background in chemical engineering or industrial chemistry Course Content: - Getting Started - Propane Refrigeration Loop - De-pentanizer & De-butanizer - Oil Characterization (TBP) - Pre-Heat Train - Desalter - Preflash - Atmospheric Crude Column - Side Stripper - Pump around - Vacuum Tower - Heat Integration - Rating Heat Exchangers - Optimization. 8.Pipeline construction & piping design Course Objectives The pipeline networks expanded rapidly allover the world when it became apparent that pipelines are an efficient, economic way to move oil, gas, and petroleum products to consumers. The large discoveries of oil and gas, many of them in remote areas of little local demand, promoted this pipeline expansion. More challenges face the pipeline industry. So, good understanding of pipeline systems will help tackling these challenges. This course deals with the design, construction of both gas and liquid pipeline systems. An overview of pipeline industry is discussed. Participants will have acquire and/or consolidate the essential knowledge and skills to design and construct pipelines. This will allow them to contribute to cost effective, safe and sound-design of pipelines. Who Should Attend Managers, engineers, operators, supervisors, inspectors, equipment suppliers, or those who wish to be familiar with pipeline systems Course Contents • Pipeline Design o Design Sequence of P/L network − Evaluation of fluid availability − Estimate of fluid demands. − The Basic design of P/L network. − The Economics of P/L system. o Fluid properties affecting flow • Design of Gas Pipelines o Calculation of compressibility factor. o Properties of gas mixtures. o Pressure drop in gas pipeline due to friction. o Gas pipeline flow equations. o Friction factor and transmission factor. o Gas Pipeline velocity and erosional velocity calculation. o Increasing gas throughput by looping and booster compressor. o Calculation of pipe maximum allowable operating pressure. o Fundamental Calculations of gas compressor stations. o Design of Liquid Pipelines − Calculation of Liquid Flow Parameters (Line capacity – Pressure drop – Pipe Diameter – Max. Velocity) − Designing Loop Systems − Heavy Crude Transport − Water Hammer Phenomenon − Pumps in Liquid Pipeline Systems. o Design of two-Phase Pipelines − -- Two-phase Flow Patterns − -- Variables affecting two-phase flow − -- Beggs-Brill Solution Technique • Construction of P/L o Common features of P/L Construction o Construction of Land Pipeline. − Design and Route Selection − Obtaining Rights of Way − Installation − Tie in − Testing • Construction of Offshore Pipeline. − Conventional Lay Barge Method − Reel Barge Method. − Vertical Lay Method − Tow or Pull Method. − Tie-in − Burial − Anchoring Course Duration: (5) Days Pipeline Construction (PL2) Course Contents • Introduction to Construction − Basics of Project Management − Construction Industry − Construction Data Sheet • Welding Overview − Making a Joint − Joint Design − Welding Variables − Metal Arc Welding with Covered Electrodes − Submerged Arc Welding − Gas Shielded Metal Arc Welding − Tungsten Inert Gas Arc Welding − Pipeline welding − Welding Inspection − Safety considerations in welding • Construction of P/L o Common features of P/L Construction o Construction of Land Pipeline. − Design and Route Selection. − Obtaining Rights of Way − Installation − Tie in − Testing o Construction of Offshore Pipeline − Conventional Lay Barge Method − Reel Barge Method. − Vertical Lay Method. − Tow or Pull Method. − Tie-in. − Burial. − Anchoring. HSE COURSES 1. NASP “Advanced” 18 Safety Application in Petroleum industry This program will cover: • Safety in Offices • Confined Space entry • Working in heights • Work shop safety and precautions • Electrical safety, lockout and tag out • Fire and Gas deduction systems • Firefighting systems • And some other applications 2.Risk Assessment & Hazard Identification This program will cover: • Understand the aims and objectives of risk assessment • Comply with relevant legislation and regulations • Ensure that risk is managed and controlled appropriately within your organization • Distinguish between high frequency/low severity and low frequency/high severity events • Identify hazards by means of workplace inspection and task analysis ( e.g. Hearing) • Conservative Program & Gas Leak Tests as monitoring of chemical exposure ) • Use accident and near miss data to formulate risk assessments • Use risk assessment techniques to determine risk levels and to assess the adequacy of controls 3.Occupational health & Safety Management OHSAS 18001 This program will cover: • OH&S Planning and Management Systems • OH&S Risk Management • OH&S Implementation and Operation • Implementation Techniques • Audit Process according to ISO 19011 • Exit meeting/Report writing/Recommendations & Follow up 4.Hazardous Wastes in Petroleum Industry This program will cover: • Basic about Hazardous wastes in petroleum refinery . • General definition of hazard waste. • Different methods of classification. • Hazardous characteristics. • Environmental Hazards of Petroleum Refineries.
Posted on: Wed, 12 Nov 2014 23:57:08 +0000
Trending Topics
Recently Viewed Topics
© 2015