DRILLING ENGINEERING COURSE IN RAWALPINDI, ISLAMABAD, PAKISTAN. IPATS Govt Recognized +923035530865,3219606785
Drilling Engineering Course IPATS Govt Recognized +923035530865,3219606785
Drilling Engineering course in Rawalpindi, Islamabad, Pakistan. Drilling course in Rawalpindi, Islamabad, Pakistan. Drilling Engineering diploma course in Rawalpindi, Islamabad, Pakistan. Petroleum Drilling Engineering course in Rawalpindi, Islamabad, Pakistan. Oil and Gas Drilling Engineering course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
Students from different cities can apply for Admission
Rawalpindi, Islamabad, Lahore, Karachi, Gilgit, Skardu, Ghangche, taxila, Shigar, Astore, Diamer, Ghizer, Kharmang, Gultari, Rondo, Hunza Nagar, Gupi, Azad Jammu and Kashmir, Muzaffarabad, Mirpur, Bhimber, Kotli, Rawlakot, Bagh, Bahawalpur, Bhakkar, Chakwal, Chiniot, Dera Ghazi Khan, Faisalabad, Gujranwala, Gujrat, Hafizabad, Jhang, Jhelum, Kasur, Khanewal, Khushab, Layyah, Lodharan, Mandi-Bahuddin, Mianwali, Multan, Muzaffargarh, Nankana Sahib, Narowal, Okara, Pakpattan, Rahim Yar Khan, Rajanpur, Sahiwal, Sargodha, Sheikhupura, Sialkot, Toba tek Singh, Vehari, Attock, Taxila, Wah Cantt, Rawalpindi, Balochistan, Khyber-Pakhtunkhwa, Punjab, Sindh, Gilgit Baltistan, Turbat, Sibi, Chaman, Lasbela, Zhob, Gwadar, Nasiraba, Jaffarabad, Hub, Dera Murad Jamali, Dera Allah Yar, Khyber-Pakhtunkhwa, Peshawar, Mardan, Abbottabad, Mingor, Kohat, Bannu, Swabi, Dera Ismail Khan, Charsadda, Nowshera, Mansehra, Hyderabad, Sukkur, Larkana, Nawabshah, Nanak wara, Mirpur Khas, Jacobabad, Shikarpur, Khairpur, Pakistan.
Drilling Engineering
Drilling engineering is a subset of petroleum engineering. Drilling engineers design and implement procedures to drill wells as safely and economically as possible. They work closely with the drilling contractor, service contractors, and compliance personnel, as well as with geologists and other technical specialists. The drilling engineer has the responsibility for ensuring that costs are minimized while getting information to evaluate the formations penetrated, protecting the health and safety of workers and other personnel, and protecting the environment. The planning phases involved in drilling an oil or gas well typically involve estimating the value of sought reserves, estimating the costs to access reserves, acquiring property by a mineral lease, a geological survey, a well bore plan, and a layout of the type of equipment required to reach the depth of the well. Drilling engineers are in charge of the process of planning and drilling the wells. Their responsibilities include, Designing well programs (e.g., casing sizes and setting depths) to prevent blowouts (uncontrolled well-fluid release) while allowing adequate formation evaluation. Designing or contributing to the design of casing strings and cementing plans, directional drilling plans, drilling fluids programs, and drill string and drill bit programs. Specifying equipment, material and ratings and grades to be used in the drilling process. Providing technical support and audit during the drilling process. Performing cost estimates and analysis. Developing contracts with vendors. Drilling engineers are often degreed as petroleum engineers, although they may come from other technical disciplines (e.g., mechanical engineering or geology) and subsequently be trained by an oil and gas company. They also may have practical experience as a rig hand or mudlogger or mud engineer.
Well Logging
Well logging, also known as borehole logging is the practice of making a detailed record (a well log) of the geologic formations penetrated by a borehole. The log may be based either on visual inspection of samples brought to the surface (geological logs) or on physical measurements made by instruments lowered into the hole (geophysical logs). Some types of geophysical well logs can be done during any phase of a well's history: drilling, completing, producing, or abandoning. Well logging is performed in boreholes drilled for the oil and gas, groundwater, mineral and geothermal exploration, as well as part of environmental and geotechnical studies. The oil and gas industry uses wireline logging to obtain a continuous record of a formation's rock properties. Wireline logging can be defined as being "The acquisition and analysis of geophysical data performed as a function of well bore depth, together with the provision of related services." Note that "wireline logging" and "mud logging" are not the same, yet are closely linked through the integration of the data sets. The measurements are made referenced to "TAH" - True Along Hole depth: these and the associated analysis can then be used to infer further properties, such as hydrocarbon saturation and formation pressure, and to make further drilling and production decisions.
Mud Logging
Mud logging is the creation of a detailed record (well log) of a borehole by examining the cuttings of rock brought to the surface by the circulating drilling medium (most commonly drilling mud). Mud logging is usually performed by a third-party mud logging company. This provides well owners and producers with information about the lithology and fluid content of the borehole while drilling. Historically it is the earliest type of well log. Under some circumstances compressed air is employed as a circulating fluid, rather than mud. Although most commonly used in petroleum exploration, mud logging is also sometimes used when drilling water wells and in other mineral exploration, where drilling fluid is the circulating medium used to lift cuttings out of the hole. In hydrocarbon exploration, hydrocarbon surface gas detectors record the level of natural gas brought up in the mud. A mobile laboratory is situated by the mud logging company near the drilling rig or on deck of an offshore drilling rig, or on a drill ship.
Measurement while Drilling
A drilling rig is used to create borehole or wells (also called a wellbore) in the earth's sub-surface, for example in order to extract natural resources such as gas or oil. During such drilling, data is acquired from the drilling rig sensors for a range of purposes such as: decision-support to monitor and manage the smooth operation of drilling; to make detailed records (or well log) of the geologic formations penetrated by a borehole; to generate operations statistics and performance benchmarks such that improvements can be identified, and to provide well planners with accurate historical operations-performance data with which to perform statistical risk analysis for future well operations. The terms Measurement While Drilling (MWD), and Logging While Drilling (LWD) are not used consistently throughout the industry. Although, these terms are related, within the context of this section, the term MWD refers to directional-drilling measurements, e.g., for decision support for the smooth operation of the drilling, while LWD refers to measurements concerning the geological formation made while drilling.
Logging while Drilling
Logging while drilling (LWD) is a technique of conveying well logging tools into the well borehole downhole as part of the bottom hole assembly (BHA). LWD tools work with its measurement while drilling (MWD) system to transmit partial or complete measurement results to the surface via typically a drilling mud pulser or other improved techniques, while LWD tools are still in the borehole, which is called "real-time data". Complete measurement results can be downloaded from LWD tools after they are pulled out of hole, which is called "memory data". LWD, while sometimes risky and expensive, has the advantage of measuring properties of a formation before drilling fluids invade deeply. Further, many wellbores prove to be difficult or even impossible to measure with conventional wireline tools, especially highly deviated wells. In these situations, the LWD measurement ensures that some measurement of the subsurface is captured in the event that wireline operations are not possible. Timely LWD data can also be used to guide well placement so that the wellbore remains within the zone of interest or in the most productive portion of a reservoir, such as in highly variable shale reservoirs. LWD technology was developed originally as an enhancement to the earlier MWD technology to completely or partially replace wireline logging operation. With the improvement of the technology in the past decades, LWD is now widely used for drilling (including geosteering), and formation evaluation (especially for real time and high angle wells).
Geosteering
Geosteering is the intentional directional control of a wellbore based on the results of downhole geological logging measurements rather than three-dimensional targets in space, usually to keep a directional wellbore within a pay zone. In mature areas, geosteering may be used to keep a wellbore in a particular section of a reservoir to minimize gas or water breakthrough and maximize economic production from the well. In the process of drilling a borehole, geosteering is the act of adjusting the borehole position (inclination and azimuth angles) on the fly to reach one or more geological targets. These changes are based on geological information gathered while drilling.
Drilling Engineering Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
Drilling Engineering Course Content:
Drilling Fluids and Hydraulics
Casing and Cementing
Bit Technology
Bit Technology
Drill String Basics
Directional Drilling
Stuck Pipe
Well Control
Cost Analysis
Technical Writing
Class
5 Days a Weeks Class Timing
Evening & Morning Shift
Drilling Engineering Diploma Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
EFI ELECTRONIC FUEL INJECTION SYSTEM COURSE IN RAWALPINDI, ISLAMABAD, PAKISTAN. IPATS Govt Recognized +923035530865,3219606785
EFI Electrical Fuel Injection System Course IPATS Govt Recognized +923035530865,3219606785
Electronic Fuel Injection (EFI) course in Rawalpindi, Islamabad, Pakistan. EFI electrician course in Rawalpindi, Islamabad, Pakistan. EFI diploma course in Rawalpindi, Islamabad, Pakistan. Electronic fuel injection system course in rawalpindi, islamabad, pakistan. +923035530865,3219606785
Students from different cities can apply for Admission
Rawalpindi, Islamabad, Lahore, Karachi, Gilgit, Skardu, Ghangche, taxila, Shigar, Astore, Diamer, Ghizer, Kharmang, Gultari, Rondo, Hunza Nagar, Gupi, Azad Jammu and Kashmir, Muzaffarabad, Mirpur, Bhimber, Kotli, Rawlakot, Bagh, Bahawalpur, Bhakkar, Chakwal, Chiniot, Dera Ghazi Khan, Faisalabad, Gujranwala, Gujrat, Hafizabad, Jhang, Jhelum, Kasur, Khanewal, Khushab, Layyah, Lodharan, Mandi-Bahuddin, Mianwali, Multan, Muzaffargarh, Nankana Sahib, Narowal, Okara, Pakpattan, Rahim Yar Khan, Rajanpur, Sahiwal, Sargodha, Sheikhupura, Sialkot, Toba tek Singh, Vehari, Attock, Taxila, Wah Cantt, Rawalpindi, Balochistan, Khyber-Pakhtunkhwa, Punjab, Sindh, Gilgit Baltistan, Turbat, Sibi, Chaman, Lasbela, Zhob, Gwadar, Nasiraba, Jaffarabad, Hub, Dera Murad Jamali, Dera Allah Yar, Khyber-Pakhtunkhwa, Peshawar, Mardan, Abbottabad, Mingor, Kohat, Bannu, Swabi, Dera Ismail Khan, Charsadda, Nowshera, Mansehra, Hyderabad, Sukkur, Larkana, Nawabshah, Nanak wara, Mirpur Khas, Jacobabad, Shikarpur, Khairpur, Pakistan.
EFI Electronic fuel Injection System
Electronic fuel injection (EFI) is simple, in theory. The design goal for an EFI system is to deliver the correct air fuel ratio for varying load, speed and temperature. Most modern EFI systems are incorporated in an ECU which also controls the ignition system, and may control may other functions such as anti-lock brakes, traction control systems, the transmission, etc. A fuel injection system itself consists of a source of pressurized fuel, fuel injectors and the electronic controller. The fuel system is composed of the fuel tank, a high pressure pump, and some method for regulating fuel pressure. The injectors can be though of as electrically operated valves. The amount of fuel delivered to the engine is determined by size of the injectors, the amount of time that the injectors are open, and on the fuel pressure. The electronic controller to determines how much fuel is needed and commands the injectors to remain open for the necessary amount of time to deliver the needed fuel volume. The amount of time that the injector is open is called the pulse width and is usually expressed in milliseconds (one thousands of a second).
A simple EFI system can operate fairly effective with just these three inputs. However, many systems include additional inputs from the following types of sensors. Most sensors are of one of two types. Some are simple on-off switches or counters, such as a gear indicator or tachometer. Most measure continuous variables like temperature or airflow. These sensors produce a 0-5v output. This signal is read by the ECU (computer). By referring to a calibration table, the ECU translates the signal into a value representing the physical parameter which is being measured, such as airflow in units of mass/time or temperature. The tuning process boils down in most cases to changing the values in these tables.
Mass Air Flow (MAF – a sensor which directly measures airflow into the motor)
Intake Air Temperature (IAT – an electronic temperature sensor to measure the temperature of the air entering the motor)
Coolant Temperature Sensor (ACT – an electronic temperature sensor to measure the temperature of the engine coolant)
Vehicle Speed Sensor (VSS – an electronic speedometer)
Oxygen sensor (O2 sensor – measures the amount of oxygen in the exhaust which reflects the A:F (air:fuel) ratio)
Knock sensor (a microphone which picks up the characteristic sound of engine knock)
Crankshaft position (a magnetic sensor that tells the ECU which cylinder is ready to fire or receive fuel)
Transmission sensors (these may include gear selection, pressure, and temperature sensors)
Emission control device operation (a variety of functions may be monitored by different sensors)
Advanced Throttle Body Fuel injection
No tuning experience required - System provides self-mapping fuel technology to continually monitor and adjust fuel calibration
Ready to run right out of the box with pre-loaded calibrations
Supports fully programmable Ignition Control to optimize performance and fuel economy
Accepts traditional round air cleaners and maintains same hood clearance as a carb
Easy to use E Tuner App that communicates via Bluetooth wireless for ECU setup and engine tuning adjustments
Capable of adapting to limitless engine and camshaft profiles
Available with or without 7" Android Touch screen device with pre-loaded E Tuner App
EFI Electronic fuel injection system Course in Rawalpindi, Islamabad, Pakistan. 0321-4278510, 0331-9370215
EFI Course Content:
Tools
Power output
Fuel efficiency
Emissions performance
Running on alternative fuels
Reliability
Driveability and smooth operation
Initial cost
Maintenance cost
Diagnostic capability
Range of environmental operation
Engine tuning
Class
5 Days a Weeks Class Timing
Evening & Morning Shift
Electronic fuel Injection System EFI Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
ELECTRICAL ENGINEERING COURSE IN RAWALPINDI, ISLAMABAD, PAKISTAN. IPATS Govt Recognized +923035530865,3219606785
Electrical Engineering Diploma Course IPATS Govt Recognized +923035530865,3219606785
Electrical Engineering course in Rawalpindi, Islamabad, Pakistan. Electrical Engineering diploma course in Rawalpindi, Islamabad, Pakistan. Electrical Engineering Technology course in Rawalpindi, Islamabad, Pakistan. Electrical Engineering Training Diploma course in Rawalpindi, Islamabad, Pakistan. Electrical Engineering Technology Training course in Rawalpindi, Islamabad, Pakistan. Electrical Engineering Technology diploma course in Rawalpindi, Islamabad, Pakistan. Electrical Engineering Practical Training course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
Students from different cities can apply for Admission
Rawalpindi, Islamabad, Lahore, Karachi, Gilgit, Skardu, Ghangche, taxila, Shigar, Astore, Diamer, Ghizer, Kharmang, Gultari, Rondo, Hunza Nagar, Gupi, Azad Jammu and Kashmir, Muzaffarabad, Mirpur, Bhimber, Kotli, Rawlakot, Bagh, Bahawalpur, Bhakkar, Chakwal, Chiniot, Dera Ghazi Khan, Faisalabad, Gujranwala, Gujrat, Hafizabad, Jhang, Jhelum, Kasur, Khanewal, Khushab, Layyah, Lodharan, Mandi-Bahuddin, Mianwali, Multan, Muzaffargarh, Nankana Sahib, Narowal, Okara, Pakpattan, Rahim Yar Khan, Rajanpur, Sahiwal, Sargodha, Sheikhupura, Sialkot, Toba tek Singh, Vehari, Attock, Taxila, Wah Cantt, Rawalpindi, Balochistan, Khyber-Pakhtunkhwa, Punjab, Sindh, Gilgit Baltistan, Turbat, Sibi, Chaman, Lasbela, Zhob, Gwadar, Nasiraba, Jaffarabad, Hub, Dera Murad Jamali, Dera Allah Yar, Khyber-Pakhtunkhwa, Peshawar, Mardan, Abbottabad, Mingor, Kohat, Bannu, Swabi, Dera Ismail Khan, Charsadda, Nowshera, Mansehra, Hyderabad, Sukkur, Larkana, Nawabshah, Nanak wara, Mirpur Khas, Jacobabad, Shikarpur, Khairpur, Pakistan.
ELECTRICAL ENGINEERING
Engineering is the application of mathematics and scientific, economic, social, and practical knowledge in order to invent, innovate, design, build, maintain, research, and improve structures, machines, tools, systems, components, materials, processes, solutions, and organizations. The discipline of engineering is extremely broad and encompasses a range of more specialized fields of engineering, each with a more specific emphasis on particular areas of applied science, technology and types of application. The term Engineering is derived from the Latin ingenium, meaning "cleverness" and ingeniare, meaning "to contrive, devise". Electronics is the science of controlling electrical energy electrically, in which the electrons have a fundamental role. Electronics deals with electrical circuits that involve active electrical components such as vacuum tubes, transistors, diodes, integrated circuits, associated passive electrical components, and interconnection technologies. Commonly, electronic devices contain circuitry consisting primarily or exclusively of active semiconductors supplemented with passive elements; such a circuit is described as an electronic circuit. The science of electronics is also considered to be a branch of physics and electrical engineering. The nonlinear behaviour of active components and their ability to control electron flows makes amplification of weak signals possible, and electronics is widely used in information processing, telecommunication, and signal processing. The ability of electronic devices to act as switches makes digital information processing possible. Interconnection technologies such as circuit boards, electronics packaging technology, and other varied forms of communication infrastructure complete circuit functionality and transform the mixed components into a regular working system. Electrical engineering is a field of engineering that generally deals with the study and application of electricity, electronics, and electromagnetism. This field first became an identifiable occupation in the later half of the 19th century after commercialization of the electric telegraph, the telephone, and electric power distribution and use. Subsequently, broadcasting and recording media made electronics part of daily life. The invention of the transistor, and later the integrated circuit, brought down the cost of electronics to the point they can be used in almost any household object.
Electrical Engineering Technology Course in Rawalpindi, Islamabad, Pakistan. 0321-4278510, 0331-9370215
Electrical Engineering Course Content:
Circuits & Instroments
Logic Design Computer Organization
Electronics Circuits
Signals and Systems
Electromagnetic Fields
Statics of Signals Processing
Semiconductor Electronics Devices
Process instrumentation and control
Introduction to various technical facilities in the workshop including mechanical and electrical equipment.
Concepts in electrical safety, safety regulations, earthling concepts, electric shocks and treatment.
Use of tools used by electricians, wiring regulations, types of cables and electric accessories including switches, plugs, circuit breakers,
fuses etc., symbols for electrical wiring schematics e.g. Switches, lamps, sockets etc.,
Drawing and practice in simple house wring and testing methods, wiring schemes of two way and three way circuits and ringing circuits,
voltage and current measurements.
Electric soldering and soldering tools; soldering methods and skills, pcb designing, transferring a circuit to pcb, etching, drilling and
soldering component on pcb testing
Electric quantities, electric signals, electric circuits, Kirchhoff’s laws, circuit elements. Resistance, series parallel combination,
voltage and current dividers, resistive bridges and ladders, practical sources and loading, instrumentation and measurement.
Individual/Group project, Assignments and Quizze
Class
5 Days a Weeks Class Timing
Evening & Morning Shift
Electrical Engineering Technology Diploma Course in Rawalpindi, Islamabad, Pakistan. IPATS Govt Recognized +923035530865,3219606785
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