Instrumentation & Controls Engineer job in Germany

Instrumentation & Controls Engineer job in Germany

Rate Negotiable
Type Contract
 Location Germany
Region Saxony
Town Leipzig, Germany
Required Residency Posted By Leap29
Ltd Date Posted 20 May 2014 Expiry Date 27 May 2014
 Job Reference 50783_24516leap2_JH0

Job Description Instrumentation & Controls Engineer 
Are you looking for an excellent opportunity within the Oil & Gas sector? Are you somebody who can make an impact within a team and lead others efficiently? 

Leap 29 are urgently looking for a Instrumentation & Controls Engineer to work for an oil and gas client in Leipzig, Germany on a 6 month renewable contract.
Our prestigious client has a reputation for being one of the leading companies within the oil & gas sector, with projects ranging from the largest offshore and onshore operations.
Our client requires the ideal candidate to start as soon as possible and rates are dependent upon experience.
As a Instrumentation & Controls Engineer, you will be responsible for the following;
•Leading the design process of new control systems 
•Working with the design engineers, operation engineers and users to develop conceptual and detailed designs and verify implementation 
•Testing, analyzing and modifying existing systems in order to ensure efficiency and effectiveness 
•Ensuring the project is delivered on time and to budget 
•Providing advice and consultancy support 


Required experience: 
•Educated to degree level (MSc level minimum)
•EU Nationality
•5+ years’ experience as a Instrumentation & Controls Engineer
•Experience in detailed and conceptual design of control systems including distributed control systems (DCS), advanced process control (APC), programmable logic controllers (PLC) and supervisory control and data acquisition (SCADA).
•Fluent in German

If you are looking for an exciting new challenge in a leading international company, with excellent scope for career prospects and personal development, then this could be the role for you!

Please apply immediately via the link below. 

APPLY

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electrical engineer fresher vacancy free

Electrical engineer fresher vacancy free

Rate

£45,000 - £50,000

Type

Permanent

Location

UK

Region

England

Town

Bristol

Required Residency

Posted By

FINTEC Recruit

Date Posted

12 May 2014

Expiry Date

25 May 2014

Job Reference

FT1449

Job Description

FINTEC recruit is seeking a Principal CE&I Engineer for our client in the Nuclear industry.

The Principal CE&I Engineer role is a permanent position based in Bristol. Salary is circa £45,000 - £50,000 depending on experience.

Responsibilities

• Leading the design and development of instrumentation and power systems, ensuring compliance and producing relevant documentation
• Review, verify and approve designs throughout the lifecycle, ensuring standards and industry regulations are achieved
• Ensuring that procedures, codes and standards are correctly identified and applied to engineering and technical activities
• Producing, reviewing, verifying and approving calculations, analyses, drawings, models, design basis documentation and technical reports
• Producing, reviewing, verifying and approving technical specifications, assessing tender returns and providing technical support to those packages throughout the design, construction, installation, commissioning, operation and decommissioning phases of the project to ensure that the design intent is maintained
• Ensuring that conventional HSE protection requirements are embodied in designs
• Assessing design changes, concessions and technical queries
• Raising quality plans for single discipline work packages
• Presenting designs for hazard identification and HAZOP studies
• Supporting estimates for bids
• Ensuring that adequate Reviewing, Verifying & Approval is undertaken on all their deliverables and for those under their direct control and supervision.

Qualifications & Experience

• Previous experience of senior level electrical engineering incorporating Requirements Management, Specifications, Design Reviews, Compliance, Safety Case, Design Delivery and Team Leadership
• Ability to lead technical projects
• Experienced communicator capable of effective Stakeholder Management
• Previous experience designing PLC systems, Instrumentation, Inverter drives, cabling and power distribution.
• Ability to write specifications and produce engineering solutions.
• Familiarity with Block Cable Diagrams, Cable Schedules, circuits, panel GA’s, Safety systems and British Standards.

Advantageous to Have:

• Experience in a safety critical environment: Nuclear, Defence, Aerospace, Oil and Gas, Petrochemical.
• Chartered Status

Full details on application. Please send your C.V. to apply and quote Ref: FT1449. Applicants must have the right to work in the UK.

FINTEC recruit specialise in Engineering, Technical and Business Support roles for permanent and contract positions, UK and International

Qualifications

HND or equivalent

Senior QA Electrical C&I (Site) job in UAE

control and instrumentation jobs in UAE

Town

Abu Dhabi

Required Residency

Posted By

Intertek Moody

Date Posted

8 May 2014

Expiry Date

13 May 2014

Job Reference

Nuclear Power Plant

Job Description

Senior Electrical C&I Quality
Surveillance Engineer (Site)

Reports To Head of Quality Surveillance

Job Purpose

To provide Quality Surveillance Oversight of the Contractor and his Sub-Contractors on the construction site for the Emirates Nuclear Energy Corporation’s (ENEC’s) Nuclear Power Plant in order to ensure compliance with the relevant Safety and Quality objectives and regulations as well as to meet agreed expectations.

Activity: Quality Surveillance Responsibility: • Verify that all work performed by the Contractor and Sub-Contractors is in accordance with the engineering design requirements, codes, standards and project contract agreements • Perform the quality surveillance oversight of the Contractor in all aspects of installation works during construction of the nuclear power plant. • Provide qualitative concurrence for the work performed by the Contractor • Ensures that the Prime Contractor is following approved Inspection and Test Plans, respecting "verification", "hold" and "witness points" • Attend assigned Witness / Hold / Review points as identified in Inspection and Test Plans (ITP) as required • Prepare Surveillance Reports identifying inspection verified and results of the inspection • Monitor the Contractor in progress of work and verify the preparation and maintenance of the quality records to the final completion of the plant; lifetime records and / or construction records • Ensures that any deficiencies and non-conformances related to materials, workmanship and processes are followed through acceptable disposition

Activity: Stakeholder Relations
Responsibility:
Facilitate communication both internally and externally in order to build and nurture mutually beneficial
working relationships
4.
Activity: HSE
Responsibility:
Follow all relevant departmental HSE policies, processes, standard operating procedures and instructions to
ensure HSE compliance in all aspects of work in accordance with sound management practices by applying
these HSE policies and procedures to self and others to take reasonable care for the health and safety of
people, or the environment, who are at the employee's place of work who may be affected by the employees
acts or omissions at work

Qualifications

HNC or equivalent

control engineering companies in india chat

List of Instrumentation and Control Engineering Companies in India

I have prepared a list of instrumentation and control engineering based companies in India, which you should must know.

National Instruments:

National Instruments transforms the way engineers and scientists around the world design, prototype, and deploy systems for test, control, and embedded design applications. Using NI open graphical programming software and modular hardware, customers at more than 30,000 companies annually simplify development, increase productivity, and dramatically reduce time to market. From testing next-generation gaming systems to creating breakthrough medical devices, NI customers continuously develop innovative technologies that impact millions of people.

If you are interested in this company you may send a mail to ni.india.resumes@ni.com.

ABB:

ABB is a global leader in power and automation technologies that enable utility and industry customers to improve their performance while lowering environmental impact.

Larsen & Tourbo:

Larsen & Toubro Limited (L&T) is India's largest engineering and construction conglomerate with additional interests in electricals, electronics and IT. A strong customer-focus approach and constant quest for top-class quality have enabled L&T to attain and sustain leadership over 6 decades.

Website :  http://www.larsentoubro.com/
Instrumentation and control Jobs in Larsen & Tourbo here

Robert Bosch

Robert Bosch is leading manufacture of automobile Instruments. Robert Bosch and Mico are jointly working in India.

Site Url :www.boschindia.com

Invensys 

Designer and supplier of digital signal processing solutions and semiconductor products. Includes corporate and investor data, products, and employment.

website : www.invensys.com

GE

From jet engines to power generation, financial services to plastics, and medical imaging to news and information, GE people worldwide are dedicated to turning imaginative ideas into leading products and services that help solve some of the world's toughest problems.

website : www.ge.com

Suzlon 

Suzlon Energy is Asia's strongest growing fully integrated wind power company and ranks amongst the top ten in the world. Suzlon integrates consultancy, design, manufacturing, operation and maintenance services to provide customers with total wind power solutions.

website : www.suzlon.com

Apna Technologies

ApnaTech is on the constant lookout for Intrepreneurs who are Excited about Personally Building a GREAT Organization and who can think miles ahead while focused on EXECUTING what they are doing right now with concrete understanding of the basics and passionate in Core Engineering.

Website : http://www.apnatech.com/careers
Drop in your resume to careers@apnatech.com

Whirlybird

Whirlybird Electronics was founded to establish a benchmark in the field of unmanned aerial vehicles (UAV) and unmanned ground vehicles (UGV). Our primary domain is Avionics with indigenous development of Inertial Navigation Systems (INS).

Website : http://www.whirlybird.in/index.html

Please checkout the list of various opening below & to apply, mail your resumes to: careers@whirlybird.in

ESSAR

Committed to innovative growth, Essar Group speaks the new language of success. The Group is judiciously invested in the commodity, annuity and services businesses

Website : http://www.essar.com/

Nuclear Medicine Instrumentation

REVIEW:

                                    Nuclear medicine is critically dependent on the accurate, reproducible performance of clinical radionuclide counting and imaging instrumentation. Quality control (QC), which may be defined as an established set of ongoing measurements and analyses designed to ensure that the performance of a procedure or instrument is within a predefined acceptable range, is thus a critical component of routine nuclear medicine practice. An extensive series of parameters has been developed over the years for acceptance testing and performance characterization of γ-cameras, SPECT and PET scanners, and other nuclear medicine instrumentation. And detailed data acquisition and analysis protocols for this purpose have been promulgated by the National Electrical Manufacturers Association (NEMA), the American Association of Physicists in Medicine (AAPM), and other regulatory, advisory, and professional organizations (1–9). In practice, however, less time-consuming and less rigorous procedures often suffice for day-to-day QC. The current article is a brief overview of such routine QC procedures for current nuclear medicine instrumentation, including the survey meter, dose calibrator, well counter, intraoperative probe, organ (“thyroid”) uptake probe, γ-camera, SPECT and SPECT/CT scanner, and PET and PET/CT scanner. The far more rigorous and more extensive acceptance-testing procedures performed for γ-cameras, SPECT and SPECT/CT scanners, and PET and PET/CT scanners are beyond the scope of this article, which is not intended to supersede or replace manufacturer-recommended acceptance-testing, QC, and preventive-maintenance procedures.

SAFETY AND ELECTROMECHANICAL INSPECTION

For those nuclear medicine instruments that “interface” directly with patients—the intraoperative probe, organ uptake probe, γ-camera, SPECT and SPECT/CT scanner, and PET and PET/CT scanner—safety features should be regularly inspected. Such features include manual emergency-off switches (“panic buttons”), collision-detection switches that immediately stop all motion if a collision occurs (e.g., between the rotating γ-camera detector and the patient during a SPECT acquisition), and interlocks that immediately turn off the x-ray tube of a SPECT/CT or PET/CT scanner if a primary-barrier door is opened during a CT scan. All position displays on the gantry and computer console and all alignment lasers should likewise be visually inspected. All manual motion-control functions (e.g., gantry rotation, detector radial motion, and table translation) should be checked as well. Finally, as with all electromechanical devices, intraoperative probes, organ uptake probes, γ-cameras, SPECT and SPECT/CT scanners, and PET and PET/CT scanners should be inspected regularly for frayed wires and broken or otherwise damaged electrical insulation, loose electrical or mechanical connections (including missing or visibly loose screws, nuts, or bolts), and dents, sharp edges, or other physical damage.

Record Keeping

Documenting of QC procedures and organized recording of the results of such procedures are requirements of a sound, compliant QC program. A written description of all QC procedures, including the acceptable (or tolerance) range of the results of each such procedure and the corrective action for an out-of-tolerance result, should be included in the procedure manual of the facility; for each procedure, the written description should be signed and dated by the facility director, physicist, or other responsible individual. For each QC test performed, the following data, as well as the initials or signature of the individual performing the test, should be recorded on a structured and suitably annotated form: the test performed; the date and time of the test; the make, model, and serial number of the device tested; the make, model, and serial number of any reference sources used; the results of the test; and a notation indicating if the test result was or was not acceptable (i.e., was or was not within the specified tolerance range). Such records should be archived in chronologic order in a secure but reasonably accessible location. It is generally helpful to track the results of QC tests longitudinally (e.g., in the form of a graph of the numeric result vs. date of the test). In this way, long-term trends in instrument performance, often imperceptible from one day to the next, may become apparent. Increasingly, of course, such records are maintained in electronic form (i.e., are computerized). In many jurisdictions, records must still be maintained in hard-copy form—and it is advisable to do so in any case, both as a backup and for convenient review by regulators and other inspectors.

Reference Sources

In many instances, QC tests of nuclear medicine instrumentation are performed not with the radionuclides that are used clinically but with longer-lived surrogate radionuclides in the form of so-called reference sources. Such standards are commercially available in various activities and geometries, depending on the application. Importantly, the certified activities of such reference sources must be traceable to the National Institute of Standards and Technology (NIST), formerly the National Bureau of Standards. NIST traceability helps ensure the accuracy of the calibrated activity. Because such reference sources are long-lived, a single standard may be used for months to years, avoiding the need to prepare sources on a daily or weekly basis and thereby avoiding possible inaccuracies in dispensing activity as well as the possibility of radioactive contamination. As with all sealed sources, however, reference sources must be checked for leakage of radioactivity (i.e., wipe-tested) at least annually, and an up-to-date inventory of such standards must be maintained. Reference sources are still radioactive at the end of their useful life span and must therefore be returned to the vendor or an authorized third party or otherwise disposed of as radioactive waste.

A long-lived radionuclide comprising a reference source must match, in the frequency and energy of its x- and γ-ray emissions, the clinical radionuclide for which it acts as a surrogate to ensure that instrument responses to the clinical radionuclide and to its surrogate are comparable. Surrogate radionuclides commonly used in nuclear medicine and their physical properties and applications are summarized in Table 1.

View this table:

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TABLE 1

Long-Lived Radionuclides Comprising Reference Sources for Instrumentation QC

Survey Meters

Survey meters, an essential component of any radiation safety program, are portable, battery-operated gas-filled ionization detectors or solid-state scintillation detectors used to monitor ambient radiation levels, that is, exposure rates (e.g., in mR/h) or counting rates (e.g., in counts per minute [cpm]). Among ionization-detector survey meters, so-called cutie-pies are relatively low-sensitivity ionization chambers (i.e., are operated at a relatively low potential difference between the anode and cathode) and are designed for use where high fluxes of x- and γ-rays are encountered. The more familiar Geiger counters (or Geiger-Mueller counters) are operated at a high potential difference, providing a high electron amplification factor and thus high sensitivity. Geiger counters are therefore well suited for low-level surveys, for example, checking for radioactive contamination. Generally, cutie-pies are calibrated in exposure rates (mR/h) and Geiger counters in counting rates (cpm). As an ionization chamber, the cutie-pie has an electron signal that depends on the energy of the detected x- or γ-rays and is therefore directly related to the exposure for all radionuclides. For Geiger counters, the amplitude of the signal pulses is independent of the energy of the incoming radiation. Therefore, if calibrated for exposure rates (mR/h), Geiger-counter calibration results apply only to the particular radionuclides comprising the reference source used in the calibration procedure. Solid-state detectors use a non–air-equivalent crystal as the detection medium and thus cannot measure exposure rates; they can measure only counting rates.

QC tests of survey meters generally include a daily battery check, with a display indicating whether the voltage supplied by the battery is within the acceptable operating range. To confirm that the survey meter has not been contaminated (i.e., yields a reproducibly low exposure or counting rate in the absence of radioactivity), the background exposure or counting rate should be measured daily in an area remote from radioactive sources within the nuclear medicine facility, if such an area is reasonably accessible. In addition, survey meters should be checked daily for constancy of response by measuring the exposure or counting rate of a long-lived reference source in a reproducible measurement geometry. Aside from the short-term decay of the reference source, the measured day-to-day exposure or counting rates should agree within 10%; if not, the meter should be recalibrated.

Survey meters should be calibrated—that is, checked for accuracy—using suitable long-lived reference sources at installation, annually, and after any repair. If the source is small (compared with the mean free path of its emitted x- and γ-rays within the material comprising the source) and the distance between the source and meter large (compared with the dimensions of the source), then a point-source geometry is approximated and the expected exposure rate (in mR/h), , in air is given by the inverse-square law:Eq. 1where A_o is the activity (in MBq) of the reference source at calibration, λ is the physical decay constant (in /d) of the radionuclide comprising the reference source, Δt is the time interval (in d) between the calibration of the reference source and the current measurement, Γ is the specific γ-ray constant (in mR/h/cm2/MBq) of the radionuclide comprising the reference source, and d is the distance (in cm) between the reference source and the meter. The reference-source activity should be sufficient to yield an exposure rate of ∼1,000 mR/h under the foregoing measurement conditions, and the exposure rates should be measured on each scale and, by appropriate adjustment of the source–meter distance, at 2 readings (∼20% and ∼80% of the maximum) on each scale. For all readings, the expected and measured exposure rates should agree within 10%.

Many nuclear medicine facilities have their survey meters calibrated by the institutional radiation safety office or by a commercial calibration laboratory. In addition to a calibration report (typically a 1-page document) specifying the reference sources used, the measurement procedure, and the measured and expected exposure rates, a dated sticker summarizing the calibration results should be affixed to the meter itself.

Dose Calibrators

The dose calibrator is a pressurized gas-filled ionization chamber for assaying activities in radiopharmaceutical vials and syringes and in other small sources. Among routine dose-calibrator QC tests, constancy must be checked daily and accuracy and linearity at least quarterly (7,18,19); daily checks of accuracy are recommended, however. At installation and after service of a dose calibrator, its geometry (position and volume)-dependent response for 99mTc must be measured and volume (from 2 to 25 mL)-dependent correction factors relative to the standard volume (e.g., 10 mL) derived.

For the constancy test, a reference source, such as 57Co, 133Ba, 68Ge, or 137Cs (Table 1), is placed in the dose calibrator, and the activity reading on each scale is recorded; day-to-day readings should agree within 10%. For the accuracy test (also sometimes known as the energy linearity test), NIST-traceable reference sources of at least 2 of the radioisotopes listed in Table 1are separately placed in the dose calibrator and the activity reading on each scale recorded. For each source, the measured activity on each scale and its current actual activity should agree within 10%.

For the quarterly check of linearity by the so-called decay method, one begins with a high-activity (∼37 GBq), independently calibrated 99mTc source and assays its activity at 12-h intervals over 3 consecutive days. Over that time, which is equivalent to 12 half-lives of 99mTc, the activity decays to about 11 MBq. The measured activities are then plotted versus time on a semilogarithmic graph, and the best-fit straight line drawn through the data points is plotted (either by eye or by using a least-squares curve-fitting algorithm). For each data point, the difference between the measured activity and the activity on the best-fit straight line at that point should be less than 10%. An alternative approach to checking linearity is the so-called shield method, in which lead sleeves of increasing thickness are placed in the dose calibrator with a 99mTc source (Fig. 1). By interposing increasing decay-equivalent thicknesses (as specified by the manufacturer of the set of lead sleeves) between the source and the sensitive volume of the dose calibrator, a decay-equivalent activity is measured for each sleeve. Although the shield method is much faster than the decay method for checking linearity (taking minutes instead of days), an initial decay-based calibration of the set of sleeves is recommended to accurately determine the actual decay equivalence of each shield.

Control and Instrumentation review

Control and Instrumentation 

The average Control and Instrument Engineer will be required to be conversant in hardware, liquid elements, material choice, control building, and frameworks designing around all the normal skills needed of today's expert designer.

In any one day the C&i specialist could be required to size a hole plate, snare a differential weight transmitter over the plate, wire it through a dangerous territory restraint into a control framework (clearly finish with graphical interface and caution focuses they have specified), design the control circle, wire the regulated yield to a control valve that they have estimated and chose to be suitable for the liquid conditions, and obviously guarantee there is instrument air accessible to activate the valve. What's more for great measure they will need to guarantee the crisis close down framework has a suitably high uprightness level to drive the valve shut when needed.

With all these requests it is no astonishment then that Control and Instrumentation is regularly viewed as the "dark craft" of numerous a designing house. Notwithstanding, we all realize that to be great at their occupation the instruments man must have the ability to put their active the right data, rapidly. This site plans to help you uphold the personal.

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control and instrumentation syllabus anna university for ME students

control and instrumentation syllabus


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Anna University,Chennai Regulations 2009 M E Control and Instrumentation Engineering 1st Semester Syllabus University : Anna University,Chennai 





UNIVERSITY DEPARTMENTS ANNA UNIVERSITY CHENNAI : : CHENNAI 600 025 REGULATIONS - 2009 CURRICULUM I TO IV SEMESTERS (FULL TIME) M.E. CONTROL AND INSTRUMENTATION

Control and instrumentation engineer:Job description

              A control and instrumentation engineer (C&I engineer) is responsible for designing, developing, installing, managing and/or maintaining equipment which is used to monitor and control engineering systems, machinery and processes. C&I engineers ensure that these systems and processes operate effectively, efficiently and safely. They usually work for the companies who manufacture and supply the equipment or for the companies who use it, such as nuclear and renewable energy companies and environmental agencies. C&I engineers need a thorough understanding of the operational processes of an organisation. They have a multidisciplinary role, working closely with colleagues across a number of functions, including operations, purchasing and design.

                Typical work activities Control and instrumentation engineers develop skills in specific control disciplines such as advanced process control (APC), distributed control systems (DCS), programmable logic controllers (PLC), and supervisory control and data acquisition (SCADA). The use of these disciplines will depend on the exact nature of individual job roles. In general however, tasks and responsibilities can include: designing and developing new control systems; testing, maintaining and modifying existing systems; analysing data and presenting findings in written reports; managing operations; working collaboratively with design engineers, operation engineers, purchasers and other internal staff; liaising with clients, suppliers, contractors and relevant authorities (e.g. the Nuclear Decommissioning Authority); project management within cost and time constrained environments; troubleshooting and problem-solving; understanding and ensuring compliance with the health and safety regulations and quality standards of the country in which work is undertaken; providing advice and consultancy support; purchasing equipment; writing computer software and test procedures; developing new business proposals; accepting responsibility and a level of accountability that is proportionate to the seniority of the position. 

Engineer / Senior Engineer - Control & Instrumentation

Engineer / Senior Engineer - Control & Instrumentation

|

Foster Wheeler Pvt Ltd

• Chennai
• Experience: 6 to 10 yrs
• CTC: As per Industry Standards 

Apply to this job 

Job Description

Foster Wheeler has an opportunity for Senior Engineer - Control & Instrumentation. The ideal candidate will have experience in chemical plant operations or process automation and the ability to design, develop and implement process control applications in general. Responsibilities Directly responsible for the control system design, development and consistent implementation of: DCS / SIS IOs Details Graphics  Alarms Analogue & Digital Output Action Tables Control Narrative Sequence Diagram, step summary, Step Transition  SIS Logic Narrative Hardware Requirement Organising and directing the process control engineering activities involved in the design and construction of the facilities Serving on Project Steering Teams to provide overall planning and organization of the project Deploying global and technology centre specific process control strategies and practices Collecting project learning experiences to ensure that improvements are captured in most-effective technology” standards and practices Qualifications Engineering Graduate in Instrumentation / Chemical with 6 – 10 years experience Experience in DCS, SIS, MES, AC&O for various chemical / petrochemical process plants with start-up and commissioning Experience in various Distributed Control System (DCS), Safety Instrument System (SIS), Manufacturing Execution System (MES) and Advance control and optimization (AC&O) for various chemical / petrochemical process plants with start-up and commissioning experience is an added advantage

Job Posted by Foster Wheeler Pvt Ltd

• Industry: construction, interiors & real estate services
• Size: 10001 - 10001+ Employees
• Turnover: 10000 - 10000+ Crores
• Website: Our company website

Engineer / Senior Engineer - Control & Instrumentation

 Foster Wheeler Pvt Ltd

• Chennai
• Experience: 6 to 10 yrs
• CTC: As per Industry Standards 

Key Skills : hardware requirement, experience in dcs, safety instrument system 

Qualification : School & Graduation > Any Graduate Specialization : Plant/Facilities/MaintenanceJob Function : Engg. project Mgmt./site Engg./Civil Engg.  

Industry : Automobiles/Auto Component/Auto Ancillary.  

Job Description

Foster Wheeler has an opportunity for Senior Engineer - Control & Instrumentation. The ideal candidate will have experience in chemical plant operations or process automation and the ability to design, develop and implement process control applications in general. Responsibilities Directly responsible for the control system design, development and consistent implementation of: DCS / SIS IOs Details Graphics  Alarms Analogue & Digital Output Action Tables Control Narrative Sequence Diagram, step summary, Step Transition  SIS Logic Narrative Hardware Requirement Organising and directing the process control engineering activities involved in the design and construction of the facilities Serving on Project Steering Teams to provide overall planning and organization of the project Deploying global and technology centre specific process control strategies and practices Collecting project learning experiences to ensure that improvements are captured in most-effective technology” standards and practices Qualifications Engineering Graduate in Instrumentation / Chemical with 6 – 10 years experience Experience in DCS, SIS, MES, AC&O for various chemical / petrochemical process plants with start-up and commissioning Experience in various Distributed Control System (DCS), Safety Instrument System (SIS), Manufacturing Execution System (MES) and Advance control and optimization (AC&O) for various chemical / petrochemical process plants with start-up and commissioning experience is an added advantage

Job Posted by Foster Wheeler Pvt Ltd

• Industry: construction, interiors & real estate services
• Size: 10001 - 10001+ Employees
• Turnover: 10000 - 10000+ Crores

Register to apply this job

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