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Internship ReportPMt Boilers Section
SAQIB RASHEEDInternee No: I-0926
Duration: 09-08-2011 to 05-09-2011Supervisor: Mr. Umar Jalil
University of Engineering & Technology Lahore (KSK Campus)
2011
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Contents
Acknowledgement 4 Abstract 5 Introduction 6
DESCON vision 6 Manufacturing Units 6 Sectors 6 Major Projects 7
Departments of DESCON 8 Production departments
Layout shop 8 Machine shop 11 Manufacturing process
- Boilers 15- Pressure vessels 19- Heat exchangers 20- Heat Recovery Steam Generation (HRSG) 23- Piping 24
Welding 25- Welding processes 25
Shielded metal Arc Welding (SMAW) 26 Submerged Arc Welding (SAW) 27 Gas Metal Arc Welding (GMAW, MIG) 28 Gas Tungsten Arc Welding (GTAW, TIG) 29 Flux Cored Arc Welding (FCAW) 30
- Welding positions 31- Welding Joints 32- Welding symbols 33
Sand blasting 36 Galvanizing 37 Stress Relieving Furnace (PWHT) 38
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Non destructive testing (NDT) 40 Methods
- Radiographic test (RT) 40- Ultrasonic test (UT) 41- Penetrant test (PT) or Die penetrant test (DPT) 43- Magnetic test (MT) or Magnetic particle test (MPT) 45
Applications of Non Destructive Testing 46 Quality Assurance & Quality control (QA & QC) 47 Codes & Standards 49 Roles / Functioning 50Recommendations 53
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Acknowledgement
Allah almighty the owner blessed His creation with all those things which are in His
creations interest and it requires His creations devotion to Allah Almighty. I thank Allah for
all those blessings which He bestowed me on every occasion throughout my life. Being a
student in the field of Mechanical Technology Recently I am blessed with an opportunity to
learn in the gorgeous working environment of DESCON Engineering Ltd. under the kind
assistance of its well mannered and experienced personnel. Mr. Umar Jalil, Mr. Rana Naeem
and Mr. Muhammad shafique has been a constant source of inspiration, encouragement and,
occasionally, enforcement, as deadlines approach to seek the implementation and to analyze
the knowledge which I acquire during studying in my university. I pay my gratitude to all
these and those whom directly or indirectly assist me over the span of internship.
In last I salute university management to give me opportunity to work and get knowledge
from the great professional environment of DESCON to broaden my vision.
Saqib Rasheed
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Abstract
Within my educational program at the University of Engineering and Technology Lahore, I
was given the opportunity to complete my internship in the DESCON Engineering (PVT)
Limited and gather besides practical experience in the area of fabrication, many valuable
skills and practical knowledge was gained during internship duration. Throughout internship
many assignments were assigned to me by my supervisor in order to implement my
theoretical knowledge into practical field such as Study of design, sandblasting, galvanizing
& furnace, flanges, non-destructive testing, hydro testing, and paint. The course of action
adopted to complete these activities was to first understand the assignment on hand then
understanding the purpose of the assignment then knowing how to do the required task in
most efficient way. These activities were done according to the requirements of the
supervisor and if there were any problems in doing the task then I contact the supervisor to
help me in that assignment. After completing the required task the findings were presented to
the supervisor for its evaluation. I spent most of the time in field to observe the fabrication
and inspection process.
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Introduction:
In 1977 to fulfill the need of Engineering Services a company was established from the name
of DESCON which stand for Design Engineering Services Construction and Commissioning.
Today DESCON is a major player in the region serving the oil and gas, chemical,
petrochemical, cement, power and infrastructure sectors in Pakistan and the Middle East. The
integrated package of services encompasses engineering, procurement, manufacturing,
construction, commissioning and maintenance.
Descon's Headquarters is located in Lahore, Pakistan. After providing the services in
Pakistan Company started to provide Engineering Services in United Arab Emirates, Saudi
Arabia, Qatar and Kuwait with projects executed in Iraq, Oman and Egypt as well. Joint
ventures include Olayan Descon in Saudi Arabia, and Presson Descon International Limited
(PDIL).
To provide the standard services operations have requisite ISO, OHSAS and ASME
certifications in addition to Descon's own QA/QC and HSE standards.
The company is driven by clearly defined vision and strives to add value to its clients
businesses by providing world-class solutions at cost-effective levels.
Vision:
To become a world-class engineering, manufacturing and construction company operating
internationally.
Manufacturing units:
Descon Manufacturing Works, Lahore (LMW) Descon Engineering Limited, Karachi Descon Engineering Abu Dhabi Descon Engineering FZE, Hamriyah Free Zone, Sharjah Olayan Descon Engineering Company, Al Jubail, Saudi Arabia Descon Engineering Qatar LLC, Doha Descon Engineering, Kuwait
Sectors:
Gas Processing and Compression Refining Power
a. Thermalb. Hydelc. Wind
Chemicalsa. Hydrogen Peroxide
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b. Soda Ashc. Industrial Chemicals
Petrochemicalsa. Polyester
b.
PTAc. Ethylene/Polyethylened. Polypropylene/PDHe. PVC
Fertilizera. Ammonia
b. Ureac. DAP
Cement Infrastructure
a. Damsb. Barragesc. Irrigation Channelsd. Motorwayse. Buildings
Water Treatmenta. Public Health
b. Industrialc. Waste Waterd. Demineralizatione. Reverse Osmosisf. Desalination
Major Projects:
- Oil & Gas- Power- Fertilizer- Chemical/ Petrochemical- Cement- Infrastructure- Water & Desalination- Heavy Lifts
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1) Shear cutting machine:Shear cutting machine is used for regular or rectangular parts cutting. It works by first
clamping the material with a ram. A moving blade then comes down across a fixed blade
to shear the material. For larger shears the moving blade may be set on an angle or
"rocked" in order to shear the material progressively from one side to the other; this angle
is referred to as the shear angle. This decreases the amount of force required, but
increases the stroke. A 5 degree shear angle decreases the force by about 20%. The
amount of energy used is still the same.
2) Gas cutting machines:There are two types of gas cutting machines which we are used in DESCON
a. Automatic portable cutting machine:Automatic portable cutting machine is also called pug machine. This machine is
designed for clean, smooth and accurate cutting of mild steel and low alloy carbon
steel. It is best suited for straight line, bevel and circular cutting. Machine is well-
balanced and does not require counter balancing. The cutting speed can be set
instantly and accurately by an indexed selector knob.
b. Profile (copy) cutting machine:Profile (copy) cutting machine is also called shape cutting machine.
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These machines are primarily meant for cutting different shapes such as stars,hexagons, squares, rectangles, circles, triangles, etc. It can also cut straight lines
and Bevels up to 45o.
The motor driven Electro Magnetic Tracing Head on the carriage arm traces theprofile on the template. This enables the torch to duplicate any intricate shapeprovided on the template of the machine.
The machines are designed with Pantograph type arms providing a direct lineguiding system
A simple and accurate magnetic tracing system helps in maintaining repeatabilityof the flame cut parts
Precise Ball and Needle bearing design of hinges ensure free and frictionlesstracing, enabling greater cutting accuracy
The speed of the machine can be varied with an indexed selector knob. The tracinghead can be moved in Clockwise or Anticlockwise direction by a selector switch.
3) Plasma cutting machine:Plasma cutting is a process that is used to cut steel and other metals of different
thicknesses (or sometimes other materials) using a plasma torch. In this process, an inert
gas (in some units, compressed air) is blown at high speed out of a nozzle; at the same
time an electrical arc is formed through that gas from the nozzle to the surface being
cut, turning some of that gas to plasma. The plasma is sufficiently hot to melt the metal
being cut and moves sufficiently fast to blow molten metal away from the cut.
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Machine Shop
There are following machines are uses at DESCON Machine shop, Fabrication shops and
Heat exchanger shop.
Drill machine (Radial, Column, Hand) Horizontal and vertical boring machines Horizontal and vertical lathe machines Horizontal and vertical Milling machines CNC milling + drilling machine Tube bending machine Tube expending and cutting machine Plate rolling machine Shaper machine
Power saw (Cutting machine) Grinding machines (Universal, Surface, Cylindrical) Different Mechanical press machines (bending, punching, cutting, sharing and hole
etc)
Share making machine Drill machine (Radial, Column, Hand):A Radial Drilling machine is a large gear headed drill
press in which the head moves along the arm that
radiates from the column of the machine. The arm of themachine can swing in relation to the base of the machine.
This swing operation helps the drill head to move out of
the way so a large crane can place the heavy work piece
on the base of the radial drilling machine. Also this helps
in drilling holes at different locations of the work piece
without actually moving the work piece.
Horizontal and vertical boring machines:Boring is the process of enlarging a hole that has already been drilled (or cast), by means of asingle-point cutting tool (or of a boring head containing several such tools), for example as in
boring a cannon barrel. Boring is used to achieve greater accuracy of the diameter of a hole,
and can be used to cut a tapered hole.
The boring process can be executed on various machine tools, including (1) general-
purpose or universal machines, such as lathes (/turning centers) or milling machines
(machining centers), and (2) machines designed to specialize in boring as a primary function,
such as jig borers and boring machines or boring mills.
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Horizontal boring machines Vertical boring machines
Horizontal and vertical lathe machines:The lathe is a machine tool which holds the work piece between two rigid and
strong supports called centers or in a chuck or face plate which revolves. The cutting tool
is rigidly held and supported in a tool post which is fed against the revolving work. The
normal cutting operations are performed with the cutting tool fed either parallel or at right
angles to the axis of the work. The cutting tool may also be fed at an angle relative to the
axis of work for machining tapers and angles.
Horizontal lathe machines Vertical lathe machines
Horizontal and vertical Milling machines:A milling machine is a machine tool used to machine solid materials. Milling machines
are often classed in two basic forms, horizontal and vertical. (1) A horizontal mill has the
same sort of xy table, but the cutters are mounted on a horizontal arbor (see Arbor milling)
across the table. Many horizontal mills also feature a built-in rotary table that allows milling
at various angles; this feature is called a universal table.
(2) In the vertical mill the spindle axis is vertically oriented. Milling cutters are held in the
spindle and rotate on its axis.
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Horizontal milling machine Vertical milling machine
CNC milling + drilling machine:CNC milling machines (also called machining centers)
are computer controlled vertical mills with the ability to move
the spindle vertically along the Z-axis. This extra degree of
freedom permits their use in die sinking, engraving
applications, and 2.5D surfaces such as relief sculptures. When
combined with the use of conical tools or a ball nose cutter, it
also significantly improves milling precision withoutimpacting speed, providing a cost-efficient alternative to most
flat-surface hand-engraving work.
Tube bending machine:Tube bending is the umbrella term for metal forming
processes used to permanently form pipes or tubing. One has to
differentiate between form-bound and freeform-bending
procedures, as well as between heat supported and cold
forming procedures.
Plate rolling machine:This machine is used for rolling the plates at different diameters
and bending the plates at different angles.
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Boilers
A boiler is an enclosed vessel that provides a means for combustion heat to be transferred towater until it becomes heated water or steam. The hot water or steam under pressure is thenusable for transferring the heat to a process. Water is a useful and inexpensive medium for
transferring heat to a process.
Boiler Room:
Main parts and accessories of Boiler:Following are the main parts and accessories of boiler
Boiler feed water pump Chemical Dosing pump Deaerator Boiler bundle
a. Economizerb. Evaporatorc. Super heater
Feed Water preheater Blow down tank Water drum Steam drum Steam header Oil heating unit, Oil pump Burners
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Boiler feed water pumpA boiler feed water pump is a specific type of pump used to pump
feedwater into a steam boiler. The water may be freshly supplied orreturning condensate produced as a result of the condensation of the steam
produced by the boiler. These pumps are normally high pressure units thattake suction from a condensate return system and can be of the centrifugal
pump type or positive displacement type.
DeaeratorA deaerator is a device that is widely used for the removal of air and
other dissolved gases from the feedwater to steam-generating boilers. Inparticular, dissolved oxygen in boiler feed waters will cause seriouscorrosion damage in steam systems by attaching to the walls of metal
piping and other metallic equipment and forming oxides (rust). Water alsocombines with any dissolved carbon dioxide to form carbonic acid thatcauses further corrosion.
Boiler bundleBoiler bundle contains following parts
a. EconomizerEconomizer is a heat exchanger through which the feedwater is
pumped. The feedwater thus arrives in the boiler at a highertemperature than would be the case if no economizer was fitted.Less energy is then required to raise the steam. Alternatively, if thesame quantity of energy is supplied, then more steam is raised. Thisresults in a higher efficiency. In broad terms a 10C increase infeedwater temperature will give an efficiency improvement of 2%.
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b. EvaporatorAn evaporator is a device used to turn (or allow to turn) theliquid form of some chemical into its gaseous form. Forexample, an evaporator is used in an air conditioning systemto allow the compressed cooling chemical (for example,
Freon) to evaporate from liquid to gas, absorbing heat in theprocess.
c. Super heaterA superheater is a device used to convert saturated steam orwet steam into dry steam used for power generation or
processes. There are three types of superheaters namely:radiant, convection, and separately fired. A superheater canvary in size from a few tens of feet to several hundred feet (a
few meters or some hundred meters).
Boiler designs can be classified in following main divisions:1. Fire-tube boilers2. Water-tube boilers3. Skid mounted boilers
1. Fire tube boiler:In a fire tube boiler, hot gases pass through the tubes and boiler feed water in the shell side isconverted into steam. Fire tube boilers are generally used for relatively small steam capacitiesand low to medium steam pressures. As a guideline, fire tube boilers are competitive forsteam rates up to 12,000 kg/hour and pressures up to 18 kg/cm2. Fire tube boilers areavailable for operation with oil, gas or solid fuels.
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2. Water tube boiler:In a water tube boiler, boiler feed water flows through the tubes and enters the boiler drum. Thecirculated water is heated by the combustion gases and converted into steam at the vapor space inthe drum. These boilers are selected when the steam demand as well as steam pressurerequirements are high as in the case of process cum power boiler / power boilers.
Most modern water boiler tube designs are within the capacity range 4,500 120,000 kg/hour ofsteam, at very high pressures. Many water tube boilers are of packaged construction if oil and
/or gas are to be used as fuel. Solid fuel fired water tube designs are available but packageddesigns are less common.
The features of water tube boilers are:
Forced, induced and balanced draft provisions help to improve combustion efficiency. Less tolerance for water quality calls for water treatment plant. Higher thermal efficiency levels are possible.
Boiler fittings and accessories
Safety Valve Water level indicators Bottom blow down valves Continuous blow down valve Flash Tank Automatic Blow down/Continuous Heat Recovery System Hand holes Steam drum internals Low- water cutoff Surface blow down line Circulating pump Feed water check valve or clack valve Top feed De super heater tubes or bundles Chemical injection line
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Pressure vessel
A pressure vessel is a closed container designed to hold gases or liquids at a pressure
substantially different from the ambient pressure.
The pressure differential is dangerous and many fatal accidents have occurred in the history
of their development and operation. Consequently, their design, manufacture, and operation
are regulated by engineering authorities backed by legislation. For these reasons, the
definition of a pressure vessel varies from country to country, but involves parameters such
as maximum safe operating pressure and temperature.
There are two types of pressure vessel:
1. Spherical pressure vessel2. Cylindrical pressure vessel.
Application of pressure vessel:
There are the following main applications of pressure vessels
- Cosmetic industry- Chemical industry- Food and beverage industry- Oil and fire industry- Paper and pulp industry- Pharmaceutical and plastic processing- Power generation- Energy processing
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Heat Exchanger:
A heat exchanger is a piece of equipment built for efficient heat transfer from one medium to
another. The media may be separated by a solid wall, so that they never mix, or they may be
in direct contact. They are widely used in space heating, refrigeration, air conditioning, power
plants, chemical plants, petrochemical plants, petroleum refineries, natural gas process ing,
and sewage treatment. The classic example of a heat exchanger is found in an internal
combustion engine in which a circulating fluid known as engine coolant flows through
radiator coils and air flows past the coils, which cools the coolant and heats the incoming air.
Flow arrangement:
Parallel-flowIn Parallel flow heat exchanger fluid flowing through a pipe and
exchanges heat with another fluid through an annulus surrounding the
pipe. In a parallel flows heat exchanger fluids flow in the same direction.
Counter-flowIn counter flow heat exchanger fluid flowing through a pipe and
exchanges heat with another fluid through an annulus surrounding the
pipe. In counter flows heat exchanger fluids flow in the opposite
direction.
Cross-flowIn a cross-flow heat exchanger the direction of fluids are perpendicular
to each other.
Counter flow heat exchangers are most efficient because they allow the
highest log mean temperature difference between the hot and cold
streams.
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Types of Heat Exchangers:
Following heat exchangers are making in DESCON Heat Exchanger shop.
Shell and tube heat exchangera. U-tube heat exchanger
b. Straight tube heat exchanger Shell and tube heat exchanger:A Shell and Tube is the most common type of heat exchanger used in the process,
petroleum, chemical and HVAC industries, it contains a number of parallel U-tubes inside
a shell. Shell Tube heat exchangers are used when a process requires large amounts of
fluid to be heated or cooled. Due to their design, shell tube heat exchangers offer a large
heat transfer area and provide high heat transfer efficiency.
Heat exchanger U-tubes are Manufactured in carbon steel grade SA 192 or alloy steel or in
stainless steel material.
Shell and tube heat exchanger design:
There can be many variations on the shell and tube design. Typically, the ends of each
tube are connected to plenums (sometimes called water boxes) through holes in tube
sheets. The tubes may be straight or bent in the shape of a U, called U-tubes.
In nuclear power plants called pressurized water reactors; large heat exchangers called
steam generators are two-phase, shell-and-tube heat exchangers which typically have U-
tubes. They are used to boil water recycled from a surface condenser into steam to drive a
turbine to produce power. Most shell-and-tube heat exchangers are 1, 2, or 4 pass designs
on the tube side. This refers to the number of times the fluid in the tubes passes through
the fluid in the shell. In a single pass heat exchanger, the fluid goes in one end of each tube
and out the other.
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Surface condensers in power plants are often 1-pass straight-tube heat exchangers (see
Surface condenser for diagram). Two and four pass designs are common because the fluidcan enter and exit on the same side. This makes construction much simpler.
There are often baffles directing flow through the shell side so the fluid does not take a
short cut through the shell side leaving ineffective low flow volumes.
Applications:
Heat exchangers are found in most chemical, electrical or mechanical systems. They serveas the system's means of gaining or rejecting heat. Some of the more common applications
are found in heating, electronic equipment, ventilation and air conditioning (HVAC)
systems, radiators on internal combustion engines, boilers, condensers, and as pre heaters
or coolers in fluid systems.
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Heat recovery steam generator (HRSG)
A heat recovery steam generator or HRSG is an energy recovery heat exchanger that recovers
heat from a hot gas stream. It produces steam that can be used in a process or used to drive a
steam turbine.
Block Diagram:
Applications:
Heat recovery can be used extensively in energy projects. In the energy-rich Persian Gulf region, the steam from the HRSG is used for
desalination plants.
Universities are ideal candidates for HRSG applications. They can use a gas turbine toproduce high reliability electricity for campus use. The HRSG can recover the heat
from the gas turbine to produce steam/hot water for district heating or cooling.
Large ocean vessels (e.g. Emma Maersk) make use of heat recovery.
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Piping:
Within industry, pipingis a system of pipes used to convey fluids (liquids and gases)
from one location to another. The engineering discipline of piping design studies the
efficient transport of fluid.
Types of piping:
There are following two type of piping which is used in LMW DESCON.
Power piping Process piping
Material of pipes:Industrial process piping can be manufactured by
steel fiberglass glass aluminum plastic copper concrete
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Welding
Welding is a process of joining two or more metal pieces as a result of significant diffusion of
the atoms of the welded pieces into the joint (weld) region. Welding is carried out by heating
the joined pieces to melting point and fusing them together (with or without filler material) or
by applying pressure to the pieces in cold or heated state.
Advantages of welding:
Strong and tight joining Cost effectiveness Simplicity of welded structures design Welding processes may be mechanized and automated
Disadvantages of welding:
Internal stresses, distortions and changes of micro-structure in the weld region Harmful effects: light, ultra violate radiation, fumes, high temperature
Applications of welding:
Buildings and bridges structures Automotive, ship and aircraft constructions Pipe lines; Tanks and vessels Railroads Machinery elements
Welding processes:Following methods are used in Welding section DESCON.
1. Shielded Metal Arc Welding (SMAW)2. Submerged Arc Welding (SAW)3. Gas Metal Arc Welding (GMAW, MIG)
a. MIGb. MAG
4. Gas Tungsten Arc Welding (GTAW, TIG)5. Flux Cored Arc Welding (FCAW)
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1. Shielded Metal Arc Welding (SMAW)Shielded metal arc welding (Stick welding, Manual metal arc welding) uses a metallic
consumable electrode of a proper composition for generating arc between itself and the
parent work piece. The molten electrode metal fills the weld gap and joins the work pieces.
This is the most popular welding process capable to produce a great variety of welds.
The electrodes are coated with a shielding flux of a suitable composition. The flux melts
together with the electrode metallic core, forming a gas and a slag, shielding the arc and the
weld pool. The flux cleans the metal surface, supplies some alloying elements to the weld,
protects the molten metal from oxidation and stabilizes the arc. The slag is removed after
Solidification.
Advantages of Shielded Metal Arc Welding (SMAW):
Simple, portable and inexpensive equipment; Wide variety of metals, welding positions and electrodes are applicable; Suitable for outdoor applications.
Disadvantages of Shielded Metal Arc Welding (SMAW):
The process is discontinuous due to limited length of the electrodes; Weld may contain slag inclusions; Fumes make difficult the process control.
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2. Submerged Arc Welding (SAW)
Submerged Arc Welding is a welding process, which utilizes a bare consumable metallic
electrode producing an arc between itself and the work piece within a granular shielding flux
applied around the weld.
The arc heats and melts both the work pieces edges and the electrode wire. The molten
electrode material is supplied to the surfaces of the welded pieces, fills the weld pool and
joins the work pieces.
Since the electrode is submerged into the flux, the arc is invisible. The flux is partially melts
and forms a slag protecting the weld pool from oxidation and other atmospheric
contaminations.
Advantages of Submerged Arc Welding (SAW):
Very high welding rate The process is suitable for automation High quality welds structure
Disadvantages of Submerged Arc Welding (SAW):
Weld may contain slag inclusions Limited applications of the process - mostly for welding horizontally located plates
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3. Gas Metal Arc Welding (GMAW, MIG)Gas Metal Arc Welding or Metal Inert Gas Welding (GMAW, MIG) is an arc welding
process, in which the weld is shielded by an external gas (Argon, helium, CO2, argon +
Oxygen or other gas mixtures).
Consumable electrode wire, having chemical composition similar to that of the parent
material, is continuously fed from a spool to the arc zone. The arc heats and melts both the
work pieces edges and the electrode wire. The fused electrode material is supplied to the
surfaces of the work pieces, fills the weld pool and forms joint.
Due to automatic feeding of the filling wire (electrode) the process is referred to as a semi-
automatic. The operator controls only the torch positioning and speed.
Advantages of Metal Inert Gas Welding (MIG, GMAW):
Continuous weld may be produced (no interruptions) High level of operators skill is not required Slag removal is not required (no slag);
Disadvantages of Metal Inert Gas Welding (MIG, GMAW):
Expensive and non-portable equipment is required; Outdoor applications are limited because of effect of wind, dispersing the shielding
gas.
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4. Gas Tungsten Arc Welding (GTAW, TIG)Gas Tungsten Arc Welding or Tungsten Inert Gas Arc Welding (GTAW, TIG) is a welding
process, in which heat is generated by an electric arc struck between a tungsten non-
consumable electrode and the work piece. The weld pool is shielded by an inert gas (Argon,
helium, Nitrogen) protecting the molten metal from atmospheric contamination.
The heat produced by the arc melts the work pieces edges and joins them. Filler rod may be
used, if required. Tungsten Inert Gas Arc Welding produces a high quality weld of most of
metals. Flux is not used in the process.
Advantages of Tungsten Inert Gas Arc Welding (TIG, GTAW)
Weld composition is close to that of the parent metal; High quality weld structure Slag removal is not required (no slag); Thermal distortions of work pieces are minimal due to concentration of heat in small
zone.
Disadvantages of Tungsten Inert Gas Arc Welding (TIG, GTAW):
Low welding rate; Relatively expensive; Requires high level of operators skill.
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5. Flux Cored Arc Welding (FCAW)Flux cored arc welding (FCAW) is an electric arc welding process which fuses together the
parts to be welding by heating them with an arc between a continuously fed flux filled
electrode wire and the work. Shielding is obtained through decomposition of the flux within
the tubular wire (self shielded method). Additionally shielding may be obtained from an
externally supplied gas or gas mixture (gas shielded method). Equipment is similar to that
used for Gas Metal Arc welding (GMAW).
Welding is normally limited to the flat and horizontal positions with large diameter wires.
Smaller diameter wires are used in all positions. A layer of slag is left on the weld bead that
must be removed after welding.
Advantages of FCAW
Deposition rate is high with larger diameter wires, and for positional welding. Deeper penetration is possible than with GMAW. FCAW has high operator appeal: process is easy to use and welds are of good
appearance.
Good quality welds and appearance. Wide range of steel types over a range of thickness.
Disadvantages of FCAW
High capital cost of machinery, maintenance required on wire feed system. Accessibility to the welding joint is restrictive because of the size of the gun. The available length of the welding lead can be restrictive. Electrode is more expensive ($/kg) than GMAW. Produces more smoke and fumes than GMAW. Slag covering needs to be removed. Storage of wires must be stored and handled to prevent damage and corrosion.
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Welding positions:There are four basic welding positions, or orientations, that have been defined by the
American Welding Society. They are
1. Flat 1G / 1F2. Horizontal 2G / 2F3. Vertical 3G / 3F4. Overhead 4G / 4F5. 5G & 6G is used for pipe welding 5G& 6G
These positions are designated by the number that relates to the position followed by a letter
that designates the type of weld; (F) for fillet weld, and (G) for groove weld.
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Welding Joints:The weld joint is where two or more metal parts are joined by welding. The five basic
types of weld joints are the butt, corner, tee, lap, and edge, as shown in figure.
A butt jointis used to join two members aligned in the same plane. This joint isfrequently used in plate, sheet metal, and pipe work. A joint of this type may beeither square or grooved.
Corner and tee jointsare used to join two members located at right angles to eachother. In cross section, the corner joint forms an L-shape, and the tee joint has the
shape of the letter T.
A lap joint, as the name implies, is made by lapping one piece of metal overanother. This is one of the strongest types of joints.
An edge jointis used to join the edges of two or more members lying in the sameplane.
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Weld symbols:Welding symbols, like sign posts are informational directors. They are placed on
drawings by Welding engineers and their purpose is to relay information to the weld
operator. In many instances the information relayed is very simple.
Occasionally it is necessary for the engineer to relay complicated information. Thereforeit is important that weld operators understand the symbols and are capable of interpreting
the needs of the engineer.
For the most part weld symbols are standard throughout the world, although there are
symbols that are devised and used only by the company that devised them.
When we put the above elements together we see the result in fig. 007. The finished
symbol instructs the weld operator to deposit a 1/4 fillet weld both sides of the joint and
that the preferred welding rod will be a E7018.
The symbol shown in following fig. indicates that the vertical component requires
beveling prior to assembly. The remainder of the symbol indicates that a 1/4 fillet is
required to complete the weld. This symbol would usually be accompanied with
additional notes and instruction. The additional notes would probably reference a specific
weld procedure, which would indicate the number and sequence of multiple passes
required to complete the finished weld.
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The following illustrations show simple weld symbols and the resulting application.
Butt Welds:
Groove Joints:
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Lap Joints:
Tee Joints:
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Sandblasting:
Sandblasting is used to clean surfaces, remove rust, oxidation, or finishes, preparing surfaces
for new coating applications. It is highly effective for large equipment, surface prepping and
paint/rust removal. The pressure of is 120 psi or 7.5 bar used. Sandblasting is mostly used for
Stainless steel and Mild Steel members.
Sand Blasting Equipments:
Air Compressor Hopper (Sand blasting machine) Blasting pipe (
)
Adopter for nozzle Nozzle (4mm to 9mm dia) Dead man switch for safety
Sand Blasting Materials:
Following materials are used,
Steel shorts Aluminum oxide Glass beads Steel grit Garnet Silica sand Larnuspur sand
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Galvanizing
Galvanizing is the process of applying a zinc coating to
fabricated iron or steel material by immersing the material
in a bath consisting primarily of molten zinc. The simplicity
of the galvanizing process is a distinct advantage over other
methods of providing corrosion protection. The automotive
industry depends heavily on this process for the production
of many components used in car manufacturing. Galvanizing
forms a metallurgical bond between the zinc and the
underlying steel or iron, creating a barrier that is part of the
metal itself.
Galvanizing process:
1. First of all dip the steel or iron material in caustic soda which is the cause of oilremoving.
2. Then dip in fresh water which is called rinsing.3. Then dip in HCL bath for 20 to 30 minutes which is the cause of rust removing.4. Then dip in fresh water which is called rinsing.5. Then dip in the flux bath (Ammonium chloride + Zinc chloride) for 2 to 3 minutes
which is the cause of coating of flux.
6. Then put on heater for some time for drying the material.7. Then dip in Zinc bath which has 4500C temperature for 4 to 5 minutes for the coating
of zinc.
8. Then dip in fresh water for quenching the material.9. The last step is the cooling, finishing and the inspection of the material.
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Stress Relieving Furnace
Stress Relieving Furnace also called post welding heat treatment (PWHT) is used for
relieving the stress from parts after machining and welding. This is used for C.S (Carbon
steel) and Alloy parts. Machining and Welding induces stresses in parts. These stresses can
cause distortions in the part long term. If the parts are clamped in service, then cracking could
occur. Also hole locations can change causing them to go out of tolerance. For these reasons,
stress relieving is often necessary.
Stress relieving is done by subjecting the parts to a temperature of about 75 C (165 F) below
the transformation temperature, line A1 on the diagram, which is about 727 C (1340 F) of
steel thus stress relieving is done at about 650 C (1202 F) for about one hour or till the
whole part reaches the temperature. This removes more than 90% of the internal stresses.
Alloy steels are stress relieved at higher temperatures. After removing from the furnace, the
parts are air cooled in still air.
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Main parts of Stress Relieving Furnace:
Bed of furnace Furnace Burners Thermocouples Main stack Control panel
Capacity of the furnace:
Length of the furnace = 20 meter
Width of the furnace = 4.5 meter
Height of the furnace = 4.5 meter
Maximum bed load = 300 Ton
Max temperature of the furnace = 750o C
Average time of Heating = 12 to 13 hours
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Non Destructive Test (NDT)
Nondestructive testing (NDT) is a wide group of analysis techniques used in science and
industry to evaluate the properties of a material, component or system without causing
damage. The terms Nondestructive examination (NDE), Nondestructive inspection (NDI),
and Nondestructive evaluation (NDE) are also commonly used to describe this technology.
Because NDT does not permanently alter the article being inspected, it is a highly-valuable
technique that can save both money and time in product evaluation.
Methods:
Following methods are used in NDT DESCON.
a) Radiographic test (RT)b) Ultrasonic test (UT)c) Penetrant test (PT) or Die penetrant test (DPT)d) Magnetic test (MT) or Magnetic particle test (MPT)
a) Radiographic test (RT)Radiographic Testing (RT), or industrial radiography, is a nondestructive testing (NDT)
method of inspecting materials for hidden flaws by using the ability of short wavelength
electromagnetic radiation (high energy photons) to penetrate various materials.
Either an X-ray machine or a radioactive source (Ir-192, Co-60, or in rare cases Cs-137) can
be used as a source of photons. Neutron radiographic testing (NR) is a variant of radiographic
testing which uses neutrons instead of photons to penetrate materials. This can see very
different things from X-rays, because neutrons can pass with ease through lead and steel but
are stopped by plastics, water and oils.
Principal
X-rays are used to produce images of objects using film or other detector that is sensitive to
radiation. The test object is placed between the radiation source and detector. The thickness
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and the density of the material that X-rays must penetrate affect the amount of radiation
reaching the detector. This variation in radiation produces an image on the detector that often
shows internal features of the test object.
Application
Used for the inspection of almost any material for surface and subsurface defects. X-rays can
also be used to locates and measures internal features, confirm the location of hidden parts in
an assembly, and to measure thickness of materials.
Advantages
Can be used to inspect virtually all materials. Detects surface and subsurface defects. Ability to inspect complex shapes and multi-layered structures without disassembly. Minimum part preparation is required.
Disadvantages
Extensive operator training and skill required. Access to both sides of the structure is usually required.
Orientation of the radiation beam to non-volumetric defects is critical. Field inspection of thick section can be time consuming. Relatively expensive equipment investment is required. Possible radiation hazard for personnel.
b) Ultrasonic Test (UT)In ultrasonic testing (UT), very short ultrasonic pulse-waves with center frequencies ranging
from 0.1-15 MHz and occasionally up to 50 MHz are launched into materials to detect
internal flaws or to characterize materials. The technique is also commonly used to determine
the thickness of the test object, for example, to monitor pipe work corrosion.
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Ultrasonic testing is often performed on steel and other metals and alloys, though it can also
be used on concrete, wood and composites, albeit with less resolution. It is a form of non-
destructive testing used in many industries including aerospace, automotive and other
transportation sectors.
Principal:
High frequency sound waves are sent into a material by use of a transducer. The sound waves
travel through the material and are received by the same transducer or a second transducer.
The amount of energy transmitted or received and the time the energy is received are
analyzed to determine the presence of flaws. Changes in material thickness and changes in
material properties can also be measured. The machine displays these results in the form of a
signal with amplitude representing the intensity of the reflection and the distance,
representing the arrival time of the reflection.
Applications
Used for the location of surface and subsurface defects in many materials including metals,
plastics, and wood. Ultrasonic inspection is also used to measure the thickness of materials
and otherwise characterize properties of material based on sound velocity and attenuation
measurements.
Advantages
High penetrating power, which allows the detection of flaws deep in the part. High sensitivity, permitting the detection of extremely small flaws. Only one surface need be accessible. Greater accuracy than other nondestructive methods in determining the depth of
internal flaws and the thickness of parts with parallel surfaces.
Some capability of estimating the size, orientation, shape and nature of defects. Nonhazardous to operations or to nearby personnel and has no effect on equipment
and materials in the vicinity.
Capable of portable or highly automated operation.
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Disadvantages
Manual operation requires careful attention by experienced technicians Extensive technical knowledge is required for the development of inspection
procedures.
Parts that is rough, irregular in shape, very small or thin, or not homogeneous aredifficult to inspect.
Surface must be prepared by cleaning and removing loose scale, paint, etc.,although paint that is properly bonded to a surface need not be removed.
Couplants are needed to provide effective transfer of ultrasonic wave energybetween transducers and parts being inspected unless a non-contact technique is
used. Non-contact techniques include Laser and Electro Magnetic Acoustic
Transducers (EMAT).
Inspected items must be water resistant, when using water based couplants that donot contain rust inhibitors.
c) Penetrant test (PT) or Die penetrant test (DPT)Dye penetrant inspection (DPI), also called liquid penetrant inspection (LPI) or penetrant
testing (PT), is a widely applied and low-cost inspection method used to locate surface
breaking defects in all non porous materials (metals, plastics, or ceramics). The penetrant
may be applied to all non ferrous materials and ferrous materials; although for ferrous
components magnetic-particle inspection is often used instead for its subsurface detection
capability. LPI is used to detect casting, forging and welding surface defects such as
hairline cracks, surface porosity, leaks in new products, and fatigue cracks on in-service
components.
Principle
DPI is based upon capillary action, where surface
tension fluid low penetrates into clean and dry surface-
breaking discontinuities. Penetrant may be applied to the
test component by dipping, spraying, or brushing. After
adequate penetration time has been allowed, the excess
penetrant is removed, a developer is applied. The
developer helps to draw penetrant out of the flaw where
a visible indication becomes visible to the inspector.
Inspection is performed under ultraviolet or white light,
depending upon the type of dye used - fluorescent or no
fluorescent (visible).
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Inspection steps
a) Cleaning the surface (1)b) Adding the first chemical liquid (penetrant) (3) where it goes through to the crack (2)c) Cleaning the surface once more. Though, some of the first chemical remains inside of
the crack
d) Adding the second chemical liquid (developer) (4), where the first liquid (5) penetrateto the second, so that the area of the crack will be shown to our eyes in a bigger scale
Applications
Used to locate cracks, porosity, and other defects that break the surface of a material and have
enough volume to trap and hold the penetrant material. Liquid penetrant testing is used to
inspect large areas very efficiently and will work on most nonporous materials.
Advantages
Large surface areas or large volumes of parts/materials can be inspected rapidly and atlow cost.
Parts with complex geometry are routinely inspected. Indications are produced directly on surface of the part providing a visual image of
the discontinuity.
Equipment investment is minimal.Disadvantages
Detects only surface breaking defects. Surface preparation is critical as contaminants can mask defects. Requires a relatively smooth and nonporous surface. Post cleaning is necessary to remove chemicals. Requires multiple operations under controlled conditions. Chemical handling precautions are necessary (toxicity, fire, waste).
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d) Magnetic test (MT) or Magnetic particle test (MPT)Magnetic particle inspection (MPI) is a non-destructive testing (NDT) process for detecting
surface and subsurface discontinuities in ferroelectric materials such as iron, nickel, cobalt,
and some of their alloys. The process puts a magnetic field into the part. The piece can be
magnetized by direct or indirect magnetization. Direct magnetization occurs when the electric
current is passed through the test object and a magnetic field is formed in the material.
Indirect magnetization occurs when no electric current is passed through the test object, but a
magnetic field is applied from an outside source. The magnetic lines of force are
perpendicular to the direction of the electric current which may be either alternating current
(AC) or some form of direct current (DC) (rectified AC).
Principal
A magnetic field is established in a component made from ferromagnetic material. The
magnetic lines of force travel through the material and exit and reenter the material at thepoles. Defects such as crack or voids cannot support as much flux, and force some of the flux
outside of the part. Magnetic particles distributed over the component will be attracted to
areas of flux leakage and produce a visible indication.
Application
Used for the inspection of ferromagnetic materials (those that can be magnetized) for defects
that result in a transition in the magnetic permeability of a material. Magnetic particle
inspection can detect surface and near surface defects.
Advantages
Large surface areas of complex parts can be inspected rapidly. Can detect surface and subsurface flaws. Surface preparation is less critical than it is in penetrant inspection. Magnetic particle indications are produced directly on the surface of the part and form
an image of the discontinuity.
Equipment costs are relatively low.Disadvantages
Only ferromagnetic materials can be inspected. Proper alignment of magnetic field and defect is critical.
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Large currents are needed for very large parts. Requires relatively smooth surface. Paint or other nonmagnetic coverings adversely affect sensitivity. Demagnetization and post cleaning is usually necessary.
Applications of Non Destructive Testing
NDT is used in a variety of settings that covers a wide range of industrial activity.
Automotiveo Engine partso Frame
Aviation / Aerospaceo Airframes
Space frameso Power plants
Propellers Reciprocating Engines Gas turbine engines
Constructiono Structureso Bridges
Maintenance, repair and operationso Bridges
Manufacturingo
Machine partso Castings and Forgings
Industrial plants such as Nuclear, Petrochemical, Power, Refineries, Pulp and Paper,Fabrication shops, Mine processing and their Risk Based Inspection programmes.
o Pressure vesselso Storage tankso Weldso Boilerso Heat exchangerso Turbine boreso In-plant Piping
Miscellaneouso Pipelines
In-line Inspection using "pigs" Pipeline integrity management Leak Detection
o Railways Rail Inspection Wheel Inspection
o Tubular NDT, for Tubing materialo Corrosion Under Insulation (CUI)o Amusement park rideso Submarines and other Naval warshipso Medical imaging applications (see also Medical physics)
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Quality Assurance & Quality control (QA & QC):
Quality control is the more traditional way that businesses have used to manage quality.
Quality control is concerned with checking and reviewing work that has been done.
Under traditional quality control, inspection of products and services (checking to make surethat what's being produced is meeting the required standard) takes place during and at the end
of the operations process.
There are three main points during the production process when inspection is performed:
1. When raw materials are received prior to entering production,2. Whilst products are going through the production process,3. When products are finished - inspection or testing takes place before products are
dispatched to customers.
The problem with this sort of inspection is that it doesn't work very well!
There are several problems with inspection under traditional quality control:
The inspection process does not add any "value". If there were any guarantees that nodefective output would be produced, then there would be no need for an inspection
process in the first place!
Inspection is costly, in terms of both tangible and intangible costs. For example,materials, labour, time, employee morale, customer goodwill, lost sales.
It is sometimes done too late in the production process. This often results in defectiveor non-acceptable goods actually being received by the customer
It is usually done by the wrong people - e.g. by a separate "quality control inspectionteam" rather than by the workers themselves
Inspection is often not compatible with more modern production techniques (e.g. "Justin Time Manufacturing") which do not allow time for much (if any) inspection.
Working capital is tied up in stocks which cannot be sold. There is often disagreement as to what constitutes a "quality product". For example,
to meet quotas, inspectors may approve goods that don't meet 100% conformance,giving the message to workers that it doesn't matter if their work is a bit sloppy. Orone quality control inspector may follow different procedures from another, or usedifferent measurements.
As a result of the above problems, many businesses have focused their efforts on improving
quality by implementing quality management techniques - which emphasize the role of
quality assurance. As Deming (a "quality guru") wrote:
"Inspection with the aim of finding the bad ones and throwing them out is too late,
ineffective, and costly. Quality comes not from inspection but from improvement of the
process."
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QA & QC DESCON LMW:
Relation of Production and Quality Control (QC) in DESCON LMW.
Production Quality control (QC)
1. Material (Store) Incoming QC Inspector2. Layout (Supervisor production) QC Inspector material3. Fabrication shop (Foreman) QC fabrication Inspector
(Fitups, Rolling, Bending, machining activities)
4. Welding (Welding Engineer) a. Welding documents(WPS, Weld matrix)
b. Welder qualification
5. PWHT PWHT specifications(Post Welding Heat Treatment) (a) Service b) Code c) Fabrication
procedure
6. Final Inspection (Production) QC Inspector7. Hydraulics or pneumatic test Hydraulics test report8. Blasting / Galvanizing (Surface preparation) -9. Dispatch -
Third party inspection:
ASME testing authority, HSB is a local testing company which has reduced cost of hiring a
foreign expert.
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Codes & Standards
The following standards are used in DESCON LMW.
German & European:
TRD (Technical Rules Directives) EN (European Standards) BS (British Standards) NBIC (National Board Inspection Code) AD Markblatter (for pressure vessels)
ASME (American society of mechanical engineering):
The following code sections are used in DESCON LMW for Boilers and Pressure vessels
SEC I Rules for constructions of Power Boilers SEC II Materials SEC V Nondestructive Examinations SEC VIII Rules for constructions of pressure vessels
- Division 1- Division 2
SEC IX Welding and Brazing QualificationsStandard Stamps:
DESCON LMW has the following standard stamps
A for Assembly S for Boilers Section I U for Pressure vessels Section VIII Division 1 U 2 for Pressure vessels Section VIII Division 1 PP for power piping R for Repair jobs CE for European standards
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Roles / Functioning
Marketing Engineer- To catch the clients- To prepare the presentations
Proposal Engineer- To prepare the budget for specific job
Project LeaderInputs
- Budget- Specifications- Simplest or preliminary drawing from BD
Outputs
- Team leader- Prepare BOQ- Indent material- To liaison with client for different matters- Follow up- Expedite the job- To distribute the project specifications- To prepare the progress sheet- To plan the job- To prepare the detail budget
Project EngineerInputs
- plan- Budget- Specifications- Drawings- WM/WPS/PQR- QIP/ITP
Outputs
- To prepare 1.4 plan through P3 plan- To prepare the weld map
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- To expedite the work- To plan the man power and machine resources - To liaison with different departments- To distribute the ITP/QIP/Welding documents and drawings to different
subsections of production
- To prepare the memo (allocation of man hours and productivity to differentsubsections of production department
QC EngineerOutputs
- To prepare QIP/ITP- To prepare the Hydro test / PWIT/Pneumatic and other procedures- To arrange the inspector for inspection
QA EngineerOutputs
- To prepare the standard company procedures formats method statement andstandard operating procedures
Supervisors- He is the person who is directly supervise his work man ship and expedite the
job.
Inputs
- Drawings- Specifications- QIP/ITP- WM/WPS/PQR
Outputs
- Finished goods Team
- Fabricators- Fitters- Riggers- Tack welder
Welding EngineerInputs
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- Weld plans- Specifications- Drawings- Consumable lists
Outputs
- Welding documents- WM (weld matrix)- WPS (welding procedure specifications)- PQR (procedure qualification record)
DesignInputs
- Client date sheet- Client specifications
Outputs
- Approved drawings- Standard tolerance sheet
PMT (Project Management)Inputs
- Client specifications- Preliminary drawings
Outputs
- Material indent- Budget revise- Client coordination
ProductionInputs
- Drawings- Specifications- QIP/ITP- Welding documents
Outputs
- Finished product through all procedures
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Recommendations
HSE department exists but it is not Functional properly, so efforts require inimproving its efficiency.
In internship program there must exist some assessment procedure to induce qualityin the internship.
The induction of Latest technologies like CNC machines usually save time andenhance output, so it should be considered to add more in companys output.
In order to improve working environment and companys profit workers facilities arelooking for things to add in it.
Recommended