A lot of effort has gone into this... Not just the 4 hours in making this ppt, not just the 4 months in completing the design project - but 4 years of Engineering in an esteemed institution. Thank you NIT Trichy.
Omar El Maghraby is a Continuous Improvement Engineer at Mondelez International in Cairo, Egypt with over 5 years of experience in mechanical engineering, project management, and continuous improvement. He holds a Master's degree in Mechanical Engineering from the American University in Cairo and is skilled in CAD, Lean Six Sigma, and data analysis. The document provides details of his work experience, education, skills, and interests.
The document discusses plant layout design for safety, noting that the layout should facilitate the most efficient flow of materials through the production process while minimizing costs and promoting employee safety. It outlines factors to consider in layout design like the production process, equipment requirements, and guidelines for health and safety. The ideal plant layout provides an optimal balance of output, space, and manufacturing processes to enhance production and safety.
Computer Application in petroleum Industry pptKalamKhan13
Mr. Kalam Khan gave a seminar presentation on computer applications in the petroleum industry. He discussed how computers are now essential tools in the industry. He explained how computers work and their basic parts. He then outlined how computers are used for various tasks like collecting field data using handheld devices, running engineering software for tasks like seismic data interpretation, and creating documents and spreadsheets using Microsoft Office programs. Computers help improve efficiency, maximize profits, and reduce hazards in the petroleum industry.
The document discusses the use of computers in industrial engineering. It describes how computers can be used for tasks like material requirements planning, manufacturing resource planning, just-in-time manufacturing, computer-aided design, computer-aided manufacturing, robotics, and flexible manufacturing systems. It also discusses the development of integrated systems that combine CAD/CAM, computer-aided process planning, and computer-integrated manufacturing. The document provides an example of how automation and computerization at a piston pin factory increased production from 1400 pins per hour to 4200 pins per hour using fewer machines and less skilled workers.
The document discusses factors to consider when selecting a site for a new plant project, including location relative to marketing area and raw material supplies, available transportation and utilities, suitable land, and environmental and community impacts. It also discusses principles of a good plant layout, such as integrating workmen and materials efficiently with minimal movement and effective space usage. Material handling in plant layout must be performed safely, efficiently, accurately and without damage to materials.
It gives the complete information about plant layout- objectives of plant layout-factors affecting plant layout- types of plant layouts-advantages and disadvantages of those layouts-methods of designing plant layout-computerised algorithms to design plant layout-geometric modelling of plant layout-soft wares available to design plant layouts-advantages of using soft wares for the preparation of plant layouts.
The document discusses different types of facility and plant layouts. It describes layout as planning the location of machines, workstations, storage areas, and infrastructure to optimize material and personnel flow. The objectives are to develop an economical layout that meets production needs while considering building constraints. Key factors for the layout decision include production type and scale, equipment, and expansion potential. The main types discussed are product/line layout, which facilitates continuous flow but requires more capital; process/functional layout, which has lower initial costs but higher material handling; and combination layouts.
Omar El Maghraby is a Continuous Improvement Engineer at Mondelez International in Cairo, Egypt with over 5 years of experience in mechanical engineering, project management, and continuous improvement. He holds a Master's degree in Mechanical Engineering from the American University in Cairo and is skilled in CAD, Lean Six Sigma, and data analysis. The document provides details of his work experience, education, skills, and interests.
The document discusses plant layout design for safety, noting that the layout should facilitate the most efficient flow of materials through the production process while minimizing costs and promoting employee safety. It outlines factors to consider in layout design like the production process, equipment requirements, and guidelines for health and safety. The ideal plant layout provides an optimal balance of output, space, and manufacturing processes to enhance production and safety.
Computer Application in petroleum Industry pptKalamKhan13
Mr. Kalam Khan gave a seminar presentation on computer applications in the petroleum industry. He discussed how computers are now essential tools in the industry. He explained how computers work and their basic parts. He then outlined how computers are used for various tasks like collecting field data using handheld devices, running engineering software for tasks like seismic data interpretation, and creating documents and spreadsheets using Microsoft Office programs. Computers help improve efficiency, maximize profits, and reduce hazards in the petroleum industry.
The document discusses the use of computers in industrial engineering. It describes how computers can be used for tasks like material requirements planning, manufacturing resource planning, just-in-time manufacturing, computer-aided design, computer-aided manufacturing, robotics, and flexible manufacturing systems. It also discusses the development of integrated systems that combine CAD/CAM, computer-aided process planning, and computer-integrated manufacturing. The document provides an example of how automation and computerization at a piston pin factory increased production from 1400 pins per hour to 4200 pins per hour using fewer machines and less skilled workers.
The document discusses factors to consider when selecting a site for a new plant project, including location relative to marketing area and raw material supplies, available transportation and utilities, suitable land, and environmental and community impacts. It also discusses principles of a good plant layout, such as integrating workmen and materials efficiently with minimal movement and effective space usage. Material handling in plant layout must be performed safely, efficiently, accurately and without damage to materials.
It gives the complete information about plant layout- objectives of plant layout-factors affecting plant layout- types of plant layouts-advantages and disadvantages of those layouts-methods of designing plant layout-computerised algorithms to design plant layout-geometric modelling of plant layout-soft wares available to design plant layouts-advantages of using soft wares for the preparation of plant layouts.
The document discusses different types of facility and plant layouts. It describes layout as planning the location of machines, workstations, storage areas, and infrastructure to optimize material and personnel flow. The objectives are to develop an economical layout that meets production needs while considering building constraints. Key factors for the layout decision include production type and scale, equipment, and expansion potential. The main types discussed are product/line layout, which facilitates continuous flow but requires more capital; process/functional layout, which has lower initial costs but higher material handling; and combination layouts.
Application of computer in chemical industrymidhiraj
The document discusses the history and applications of computers in the chemical industry. It describes how computers first began being used by chemical engineers in the 1940s-50s for research. It then outlines several key computer applications for chemical engineering design and manufacturing processes today, including CAD, flowsheeting, automation, programming, and simulation. Specific software mentioned include Chemcad, Aspen Plus, Aspen HYSYS, Ariane, BatchReactor, and Matlab. The applications aim to reduce costs, improve safety and productivity, and optimize processes and designs.
The document discusses factors to consider when selecting a plant site and layout. Key factors for site selection include proximity to raw materials, markets, transportation and availability of labor, utilities and land. The layout should allow for efficient material and personnel flow while separating hazardous processes. Ancillary buildings and services need to be placed for convenience. Central utility systems provide steam, power and cooling water to processes. Steam is widely used and systems have multiple pressure levels for flexible use.
The document discusses important factors to consider for facility location and layout. For location, key factors include proximity to marketing area and raw materials, availability of labor, land, utilities, and transportation access. The layout should optimize costs while allowing for convenient operation, maintenance, safety, and future expansion. Process requirements, modular construction, and leaving space for growth are also important considerations for efficient facility layout.
This document discusses various operations management principles including plant layout, location factors, and types of production. It provides definitions and objectives of plant layout from various sources. Plant layout aims to arrange facilities and machinery to minimize costs and meet output needs. Factors influencing plant location include proximity to materials, markets, labor, and transportation. The document also discusses types of production including job, batch, and mass production. It covers the benefits of work study which involves method study and work measurement to standardize processes and improve productivity. Different types of organization structures are listed including line, functional, and matrix structures along with their key characteristics.
Rajesh Kedar is seeking a challenging position in a reputed organization where he can utilize his technical skills. He has a M.Tech in CAD/CAM and B.E in Mechanical Engineering. He has work experience as an intern at Atlas Copco India where he modified tractor frame design. His projects include quality improvement of steel rods and seminars on CAD/CAM applications in dentistry and regenerative braking systems. He is proficient in CAD software like CATIA and Creo and has published research papers. His interests include cricket, movies, and chess.
Plant location and layout planning are important considerations. Key factors in determining plant location include proximity to markets and raw materials, transportation access, available labor, utilities, environmental regulations, and community impact. The objectives of plant layout are to facilitate manufacturing processes, optimize space utilization, and improve supervision, quality, capacity, safety, and material handling. There are three main types of layouts: product layout organizes machines by the sequence of operations for a product; process layout groups similar machines together; and fixed position layout keeps large/heavy products stationary while bringing processes to them.
This document discusses using simulation software to model and optimize a production line layout for a piston factory. It begins with background on simulation software and how it is used for facility layout planning. It then describes modeling the layout and production process of a piston factory in the Arena simulation software. The simulation is used to analyze material flow and optimize the layout to improve production rates by minimizing bottlenecks. The goals are to better understand how simulation can be applied to layout planning and prove its benefits for increasing efficiency in a factory setting.
Productivity improvement in plant by using systematic layout planning (slp) ...eSAT Publishing House
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
simulation and control in chemical enginneringThành Lý Phạm
This document describes the Group of Chemical Process Modeling, Control and Simulation at the University "Babeş-Bolyai" in Cluj-Napoca, Romania. It outlines the research areas and projects, laboratory equipment, mathematical models developed, and international meetings attended by the research group from 1999-2003. The group's work involves modeling, simulation, optimization, and advanced control of various chemical processes.
Haiku Deck is a presentation tool that allows users to create Haiku style slideshows. The tool encourages users to get started making their own Haiku Deck presentations which can be shared on SlideShare. In just a few clicks, users can design beautiful, minimalist slideshows.
This document describes the optimization of a packed bed reactor (PBR) and alternative fluidized bed reactor (FBR) designs for the production of styrene. Three methods for steam contacting are evaluated: a heat exchanger, direct injection, and heat exchanger for the FBR modeled as a continuous stirred tank reactor (CSTR). Optimization trials are performed by varying inlet temperature, pressure, and feed rate to maximize profit. Direct injection of steam into the PBR is found to be the most profitable design.
Plastics are polymers formed through polymerization reactions that join small organic molecules into long chains. Monomers are the basic building blocks that undergo polymerization to create polymers. There are two main types of polymerization: addition polymerization and condensation polymerization. Addition polymerization involves breaking carbon double bonds in monomers to form chains, producing thermoplastics. Condensation polymerization reacts two different organic molecules to form plastic molecules and byproducts. A variety of additives can be mixed with plastics to modify properties, improve performance, or reduce costs.
this is my prsentation of Plastic Process and Processing Parameter in manufacturing process. here discussed moulding process for plastic, plastic injection moulding, machine parts and procedure, material used to making mould and blow moulding process, thermoforming process, vacuum forming process, and application
This document describes the design of a plant for cryogenic distillation of air into oxygen and nitrogen. It includes an introduction to air separation and the cryogenic process. Process equipment like compressors, heat exchangers, and distillation columns are designed. Mass and energy balances are performed. The distillation columns and condenser are designed and specifications are provided. An economic analysis includes capital costs, production costs, profitability metrics, payback period and safety considerations. References for design methods are also listed.
This document describes a study for the production of ethylene glycol through the hydrolysis of ethylene oxide with water. It discusses the significance of ethylene glycol and its uses in various industries such as antifreeze and polyester fibers. The most common manufacturing method is described as the hydrolysis of ethylene oxide through a ring-opening reaction. A flow diagram shows the process which involves hydrating ethylene oxide in a reactor, evaporating the water-glycol mixture in multiple stages, stripping remaining water and purifying through distillation. The study aims to design a process capable of producing 100,000 tons per year of ethylene glycol.
The document discusses factors that influence the design of vessels used in industrial processes. It focuses on selecting the appropriate vessel type based on the material properties, operating conditions, and intended function. The main types of vessels discussed are open vessels, closed cylindrical vessels with flat or conical bottoms, and spherical/modified spherical vessels. Criteria for selecting each type include operating pressure and temperature, material hazards, and storage volume.
Application of computer in chemical industrymidhiraj
The document discusses the history and applications of computers in the chemical industry. It describes how computers first began being used by chemical engineers in the 1940s-50s for research. It then outlines several key computer applications for chemical engineering design and manufacturing processes today, including CAD, flowsheeting, automation, programming, and simulation. Specific software mentioned include Chemcad, Aspen Plus, Aspen HYSYS, Ariane, BatchReactor, and Matlab. The applications aim to reduce costs, improve safety and productivity, and optimize processes and designs.
The document discusses factors to consider when selecting a plant site and layout. Key factors for site selection include proximity to raw materials, markets, transportation and availability of labor, utilities and land. The layout should allow for efficient material and personnel flow while separating hazardous processes. Ancillary buildings and services need to be placed for convenience. Central utility systems provide steam, power and cooling water to processes. Steam is widely used and systems have multiple pressure levels for flexible use.
The document discusses important factors to consider for facility location and layout. For location, key factors include proximity to marketing area and raw materials, availability of labor, land, utilities, and transportation access. The layout should optimize costs while allowing for convenient operation, maintenance, safety, and future expansion. Process requirements, modular construction, and leaving space for growth are also important considerations for efficient facility layout.
This document discusses various operations management principles including plant layout, location factors, and types of production. It provides definitions and objectives of plant layout from various sources. Plant layout aims to arrange facilities and machinery to minimize costs and meet output needs. Factors influencing plant location include proximity to materials, markets, labor, and transportation. The document also discusses types of production including job, batch, and mass production. It covers the benefits of work study which involves method study and work measurement to standardize processes and improve productivity. Different types of organization structures are listed including line, functional, and matrix structures along with their key characteristics.
Rajesh Kedar is seeking a challenging position in a reputed organization where he can utilize his technical skills. He has a M.Tech in CAD/CAM and B.E in Mechanical Engineering. He has work experience as an intern at Atlas Copco India where he modified tractor frame design. His projects include quality improvement of steel rods and seminars on CAD/CAM applications in dentistry and regenerative braking systems. He is proficient in CAD software like CATIA and Creo and has published research papers. His interests include cricket, movies, and chess.
Plant location and layout planning are important considerations. Key factors in determining plant location include proximity to markets and raw materials, transportation access, available labor, utilities, environmental regulations, and community impact. The objectives of plant layout are to facilitate manufacturing processes, optimize space utilization, and improve supervision, quality, capacity, safety, and material handling. There are three main types of layouts: product layout organizes machines by the sequence of operations for a product; process layout groups similar machines together; and fixed position layout keeps large/heavy products stationary while bringing processes to them.
This document discusses using simulation software to model and optimize a production line layout for a piston factory. It begins with background on simulation software and how it is used for facility layout planning. It then describes modeling the layout and production process of a piston factory in the Arena simulation software. The simulation is used to analyze material flow and optimize the layout to improve production rates by minimizing bottlenecks. The goals are to better understand how simulation can be applied to layout planning and prove its benefits for increasing efficiency in a factory setting.
Productivity improvement in plant by using systematic layout planning (slp) ...eSAT Publishing House
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
simulation and control in chemical enginneringThành Lý Phạm
This document describes the Group of Chemical Process Modeling, Control and Simulation at the University "Babeş-Bolyai" in Cluj-Napoca, Romania. It outlines the research areas and projects, laboratory equipment, mathematical models developed, and international meetings attended by the research group from 1999-2003. The group's work involves modeling, simulation, optimization, and advanced control of various chemical processes.
Haiku Deck is a presentation tool that allows users to create Haiku style slideshows. The tool encourages users to get started making their own Haiku Deck presentations which can be shared on SlideShare. In just a few clicks, users can design beautiful, minimalist slideshows.
This document describes the optimization of a packed bed reactor (PBR) and alternative fluidized bed reactor (FBR) designs for the production of styrene. Three methods for steam contacting are evaluated: a heat exchanger, direct injection, and heat exchanger for the FBR modeled as a continuous stirred tank reactor (CSTR). Optimization trials are performed by varying inlet temperature, pressure, and feed rate to maximize profit. Direct injection of steam into the PBR is found to be the most profitable design.
Plastics are polymers formed through polymerization reactions that join small organic molecules into long chains. Monomers are the basic building blocks that undergo polymerization to create polymers. There are two main types of polymerization: addition polymerization and condensation polymerization. Addition polymerization involves breaking carbon double bonds in monomers to form chains, producing thermoplastics. Condensation polymerization reacts two different organic molecules to form plastic molecules and byproducts. A variety of additives can be mixed with plastics to modify properties, improve performance, or reduce costs.
this is my prsentation of Plastic Process and Processing Parameter in manufacturing process. here discussed moulding process for plastic, plastic injection moulding, machine parts and procedure, material used to making mould and blow moulding process, thermoforming process, vacuum forming process, and application
This document describes the design of a plant for cryogenic distillation of air into oxygen and nitrogen. It includes an introduction to air separation and the cryogenic process. Process equipment like compressors, heat exchangers, and distillation columns are designed. Mass and energy balances are performed. The distillation columns and condenser are designed and specifications are provided. An economic analysis includes capital costs, production costs, profitability metrics, payback period and safety considerations. References for design methods are also listed.
This document describes a study for the production of ethylene glycol through the hydrolysis of ethylene oxide with water. It discusses the significance of ethylene glycol and its uses in various industries such as antifreeze and polyester fibers. The most common manufacturing method is described as the hydrolysis of ethylene oxide through a ring-opening reaction. A flow diagram shows the process which involves hydrating ethylene oxide in a reactor, evaporating the water-glycol mixture in multiple stages, stripping remaining water and purifying through distillation. The study aims to design a process capable of producing 100,000 tons per year of ethylene glycol.
The document discusses factors that influence the design of vessels used in industrial processes. It focuses on selecting the appropriate vessel type based on the material properties, operating conditions, and intended function. The main types of vessels discussed are open vessels, closed cylindrical vessels with flat or conical bottoms, and spherical/modified spherical vessels. Criteria for selecting each type include operating pressure and temperature, material hazards, and storage volume.
Plastics are contemporary, synthetic materials. Plastics are oil and gas based, and consumes less than four per cent of our oil and gas reserves. Plastic in fact saves the energy it takes less energy to convert into plastic from raw materials. Throughout their whole life circle one-third less energy needs than making paper bags. Without plastic, whole packaging would take almost double energy by around 160 percent. The better-quality properties of plastics such as sanitized or germ free barrier properties, light weight, and durability contribute appreciably to our health and quality to way of life.
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The document outlines the requirements and expectations for a chemical plant design project. It includes sections on the project scope, required deliverables, evaluation criteria, and technical considerations. Students will work in groups of up to 4 people to develop a complete design package for a chemical process. The project is due on December 1st and must include items such as a technology review, heat and material balances, process flow diagrams, equipment specifications, and a cost analysis. Updates on progress must be submitted every two weeks.
The document summarizes key factors related to the costs and operations of salt production facilities located in Glendale, Arizona and Inagua, Bahamas owned by a large salt production company. The Inagua plant in the Bahamas benefits from lower labor costs, cheaper land, and abundant natural resources but faces challenges related to climate and environmental regulations. The Glendale plant has higher costs for labor and land but benefits from more consistent climate and access to utilities. An analysis of exact financial numbers would be needed to determine the overall comparative profitability of the two facilities.
Mba project - Energy management in commercial buildings of KeralaSandeep Koodalil
The project was Done at IMK in 2016 .as part of MBA .
The project is on Energy Management in Commercial buildings of Kerala.The project covers the energy scenario of India and Kerala their consumption patttern , energy consumption patteren of hotels and hospitals , carbon foot print reductions etc.
The document provides information about the Indian Institute of Technology Roorkee. It states that IIT Roorkee was established in 1847 as the first engineering college in South Asia and has over 5,300 students and 367 faculty members. It has 18 academic departments and focuses on transportation, nanotechnology, and disaster management. The document also provides details about the Chemical Engineering department at IIT Roorkee, including its research areas, projects, publications, and facilities.
This document provides an overview of green chemistry and green engineering principles through 30 slides. It discusses sustainable development goals and how green skills can provide green jobs. The 12 principles of green chemistry are then examined in detail, including maximizing atom economy, designing safer chemicals and processes, energy efficiency, use of renewable feeds, catalysis, and designing for degradation. Industrial case studies on energy mapping and efficiency improvements in EDC-VCM production are presented.
Prashant Chinchkhede is seeking a challenging position to become a successful professional. He has 9 years of experience in mechanical maintenance roles. His experience includes working with hot rolling mills, cold rolling mills, and currently as a senior engineer of hydraulics maintenance. He has strong skills in hydraulics, pneumatics, SAP, and preventative maintenance.
Energy efficiency of Industrial Utilities-Pratap Jung RaiPratap Jung Rai
The document discusses energy efficiency in industrial utilities. It outlines the objectives of energy efficiency as minimizing costs and environmental impacts without reducing productivity. An effective methodology for conducting energy audits is described, including preliminary, targeted, and detailed audits. The types of industrial utilities covered include electric motors, boilers, pumps, compressors, and HVAC systems. Monitoring equipment needed for energy audits is also discussed, such as electrical meters, combustion analyzers, thermometers, flow meters, and lux meters.
The aims of the O&M of Gas Turbines Workshop is to share the experiences of our internationally renowned expert with an aim to prevent such incidents and also to examine the factors and opportunities to increase plant safety, environmental performance. And improve uptime and availability all factors contributing to higher profitability.
The workshop will also examine scheduled maintenance and turnarounds which are opportunities to increase plant safety and environmental performance. By enhancing the mechanical integrity of HPI facilities, operating companies can achieve and maintain higher uptime and equipment availability; all are factors that contribute to higher profitability. Best-of-class companies hold the mindset that reliability programs provide great benefits. Investing in new monitoring and conditioning systems, along with preventive maintenance and inspection programs, can optimize unit and total facility performance.
The development of dry low NOx (DLN) combustors for gas turbines has cut the industry's consumption of water, while dramatically slashing air emissions. Unfortunately, this environmental enhancement has created an engineering challenge: The lean-burning DLN combustors are prone to flame instability, which can cause pressure pulsations large enough to destroy the combustor, launching debris downstream where it annihilates other hot-gas-path components. To detect and correct flame instability before it causes millions of dollars of turbine damage, savvy users have begun to install advanced sensors and robust software that monitor the combustor dynamics in real time.
High dynamics can limit hardware life and/or system operability. Thus, there have been various attempts to control combustion dynamics, to prevent degradation of system performance. There are two basic methods for controlling combustion dynamics in an industrial gas turbine combustion system: passive control and active control. As the name suggests, passive control refers to a system that incorporates certain design features and characteristics to reduce dynamic pressure oscillations. Active control, on the other hand, incorporates a sensor to detect, e.g., pressure fluctuations and to provide a feedback signal.
Which, When suitably processed by a controller, provides an input signal to a control device. The control device in turn operates to reduce the dynamic pressure oscillations. The workshop will examine the factors and the issues associated with combustor dynamics, and technologies like AMFM/CFM.
Benefits ofAttending
• LEARN best and effective practices in operations and maintenance of Gas Turbine Based Power Plants
• LEARN how to write and use SOPs
• IMPROVE your plants’ energy efficiency and availability
• ACHIEVE productive and safe operation
• NETWORK with other power plant professionals
• RECEIVE practical information for your CAPEX and OPEX expenditure budget planning
• LEARN about strategic procurement of High Value Spares and insurance
IRJET- Enhance the Capacity of Outer Tube Machining CellIRJET Journal
This document discusses enhancing the capacity of an outer tube machining cell at a manufacturing plant. It begins by outlining the current problem of not being able to meet customer demand and having a production gap. The objectives are then stated as increasing production rate, maximizing resource use, meeting customer requirements, and increasing profit. Data is collected from the shop floor on processing times for each workstation. The longest processing workstation is identified as the bottleneck. Modifications are proposed to reduce processing time at the bottleneck station, such as modifying a scrap fixture, in order to increase production rate and meet forecasted demand. The proposed changes are expected to increase the production rate and fulfill customer requirements while gaining higher profits.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Additive manufacturing in Engineering Applications.pptxravikumark42
This document discusses additive manufacturing (AM), also known as 3D printing. It provides an overview of AM and its applications in engineering fields like mechanical, civil, electronics, automotive and medical. The key benefits of AM are described as faster product development, ability to create complex geometries, combine or reduce parts, cost savings and ability to create multi-material and graded material parts. Different AM techniques like stereolithography, selective laser sintering and fused deposition modeling are introduced. The document concludes with some limitations of current AM technologies like high production costs, slow speeds and need for post-processing.
This document is a synopsis report submitted for the degree of Master of Technology by three students - Sreekanth P, Tantusree Bera, and Vivek A - at the University of Petroleum and Energy Studies in Dehradun, India. The report details a proposed fuzzy FMECA analysis of a liquid hydrogen storage plant. It includes a literature review on previous risk assessments of hydrogen storage and refueling facilities. The objectives are to design and analyze a fuzzy hybrid FMECA model to prioritize critical failures in liquid hydrogen storage components. The methodology will involve identifying failure frequencies, designing the hybrid model, performing analysis, and drawing conclusions. Expected resources include academic databases, published papers, books, and
This paper deals with the functioning of a Propylene
Recovery Unit (PRU) in a chemical industry and the various
Managerial and Human Resource considerations that need to be
accounted for, in this process. This report discusses various
aspects that are to be considered, before initializing the setup of
PRU, ranging from a Management perspective. Mission and
objective was decided and subsequently the managerial model
was developed. Propylene is an indispensible raw material that
has a variety of end use. A detailed analysis pertaining to
propylene demand in the market along with major sources has
been incorporated in this paper. Emphasis has been placed on
the type of departmentation required. Managerial aspects of
various functions ranging from warehousing to quality control
have also been taken into consideration. Delegations of functional
departments have been defined to prevent redundancy of duties
and major managerial functions of Planning, Organizing,
Staffing, Leading and Controlling has also been discussed.
Internal and External factors that affect the company have been
analyzed through SWOT Analysis and MBO strategies are also
broadly classified. Finally, Total Quality Management and
strategies for adoption of Lean Manufacturing as also touched
upon briefly.
The document provides information about the ME6012 Maintenance Engineering course syllabus from an engineering college. It includes:
1. The course objectives are to enable students to understand maintenance principles, functions, and practices used in industry to successfully manage maintenance activities.
2. The syllabus is divided into 5 units covering maintenance planning principles, preventative maintenance policies, condition monitoring, repair methods for machine elements and material handling equipment.
3. References for the course include textbooks on industrial maintenance management, maintenance engineering and management, and publications on maintenance planning, condition monitoring, and advances in plant engineering.
Nme 516 industrial processes for canvasCharlton Inao
The course involves the study and analysis of of industrial processing plants, focusing on local and international industries . It also deals with the analysis of flow sheets, equipment and operating data from simple cone-type rice mills, coconut oil mills, sugar centrals, plywood factories, cement plants to big power plants and processing plants.analysis of flow sheets, equipment and operating data from simple cone-type rice mills, coconut oil mills, sugar centrals, plywood factories, cement plants to big power plants and processing plants.
The document is a resume for Srinivas Reddy Kethiri seeking a maintenance engineer position. It summarizes his 18 years of experience in engineering maintenance and process engineering, including commissioning projects in India and Abu Dhabi. He has technical competencies in operating and maintaining various plant equipment like boilers, pumps, and heat exchangers. His most recent role was as a logistics coordinator at Canadian Tire, but he has also held production engineer and maintenance technician roles in India and Abu Dhabi.
The document provides details about the subject ME 6012 Maintenance Engineering taught at an engineering college. It includes the detailed lesson plan covering 5 units - Principles and Practices of Maintenance Planning, Maintenance Policies and Preventive Maintenance, Condition Monitoring, Repair Methods for Basic Machine Elements, and Repair Methods for Material Handling Equipment. It also provides 2-mark and 16-mark questions for each unit to help students prepare for exams. Previous year question papers from Anna University are included at the end as additional practice material.
This document contains the resume of Vijay Anand Acharya, who is seeking a challenging position utilizing his 7+ years of experience in design and engineering of reciprocating compressor systems. He currently works as a Senior Design Engineer at Bharat Pumps & Compressors Limited, where he is responsible for tasks like compressor selection and sizing, preparation of technical documents, coordination during project execution, and addressing technical issues. He has extensive experience handling various compressor projects for clients in the oil, gas, and energy sectors.
This curriculum vitae summarizes the qualifications and experience of Shameem Hossain. He has a M.Sc. in Energy Technology from Khulna University of Engineering & Technology and is currently an Assistant Professor there. He has over 5 years of experience in petroleum refining as a senior operations engineer and production quality controller. His research focuses on biofuels and waste conversion technologies.
The team designed a 3MWe biomass power plant with the following key features:
- Wood chips with 20% moisture content are combusted to generate steam at 800 psi and 840°F.
- The plant has an overall efficiency of 27.89% and a cost of $179 million.
- Steam drives a turbine connected to an electric generator to produce 3MWe of power.
- Flue gases from combustion are used to dry the wood chips before being released.
Operational discipline in practices - Build the safety cultureRonachai Fuangfoong
The document discusses various methods to improve operational discipline in chemical process industries, including conducting floor level meetings to identify risks, performing job cycle checks to ensure standard operating procedures are followed, conducting daily safety audits to identify hazards, and incorporating consequence analyses into work instructions to understand safe operating limits and emergency response. It provides examples of completed forms for a floor level meeting, job cycle check, risk assessment, daily safety audit, and consequence analysis to demonstrate how these methods can be implemented.
TAG Manufacturing Kick Off Meeting, The Future of ManufacturingMelanie Brandt
The document summarizes research being conducted at the Manufacturing Research Center (MARC) at Georgia Tech. MARC focuses on developing new manufacturing technologies in areas like design, machining, rapid prototyping, and factory information systems. Specific projects mentioned include developing nano-lubricants to improve grinding efficiency, using lasers for hard turning and coating applications, and applying thin-film wireless sensors to monitor machining processes. MARC aims to improve productivity, lower production costs, develop new materials and processes, and transfer technologies to industry.
TAG Manufacturing Kick Off Meeting, The Future of Manufacturing
B Tech Project Viva
1. Manufacture of Di-Methyl Formamide N. Khalid Ahmed & PremAnand A.S. 102106019 & 102106021 Under the Guidance of Dr. T. K. Radhakrishnan, Head of the Department, Department of Chemical Engineering. National Institute of Technology, Tiruchirrappalli – 620 015 INDIA
2. Outline Background – Why DMF..?? Uses Structure and Properties Process Considered Chemistry Description Material and Energy Balances Design of Equipments Plant Location Cost Estimation Safety Considerations
3. Background - Uses 65-75% as solvent for fibers, 15-20% in production of pharmaceutical products. Also used as a laboratory solvent, and in the industry as an intermediate and an additive.
5. Process Considered 4 Step proces involving raw materials methanol, ammonia and carbon monoxide Ammonia, Monomethyl amine and Trimethyl amine are recyclable Feed ratios are maintained as per stoichiometry, and explained in the thesis.
16. References Perry, R.H. and Green, D.W. – “Perry's Chemical Engineers' Handbook” - 7th Edition McGraw-Hill, 1997 Martyn S. Ray David W. Johnstan– “Chemical Engineering Design Project: A Case Study Approach” - 2nd Edition, 1978 McCabe, W., Smith, J. and Harriott, P -“Unit operations in Chemical Engineering” - 5th Edition, McGraw-Hill, 2004 Joshi M.V. and MahajaniV.V.– “Process Equipment Design” - 3rd Edition, MacMillan India Max S. Peters and KalusD.Timmerhaus - “Plant design and economics for chemical engineers” - 4th Edition, McGraw-Hill, 1991 Free patents online – Patent no:US4251460 Process for production of dimethyl formamdie.1981