Yerli ve Milli Gemi Makine Dairesi Simülatörü SERS™ artık Malezya’da

22 Haziran 2022, Teknopark İstanbul

TÜRKİYE’NİN İLK YERLİ GEMİ MAKİNE DAİRESİ SİMÜLATÖRÜ SERS™, TÜRKİYE’DEN SONRA YURTDIŞI’NDA DA TERCİH EDİLEN SİMÜLATÖR OLMAYI BAŞARDI

İTÜ Denizcilik Fakültesi Makine 1990 mezunu olan ve halen İTÜ Denizcilik Fakültesi’nde öğretim görevlisi olarak görev yapmakta olan Dr. İsmail Çiçek tarafından 2014 yılında Teknopark İstanbul’da kurulmuş olan GDS Mühendislik Ar-Ge Firmasının geliştirdiği Gemi Makine Daiesi Simülatörü (Ship Engine Room Simulator, SERS™), Japon klas kuruluşu ClassNK tarafından Full Mission (Class A) tipinde sertifikaya sahip Türkiye’nin ilk ve tek yerli ve milli simülatörüdür. Daha önce Malta’da kurulan bir eğitim merkezi, İTÜ Kuzey Kıbrıs Gemi Makineleri İşletme Mühendisliği Bölümü ve Yıldız Teknik Üniversitesi Gemi İnşaatı ve Denizcilik Fakültesi’nde de verilen Gemi Makine Dairesi Simülatörü derslerinde hem uzaktan hem de yüz yüze eğitimlerde kullanılmaya devam edilen SERSTM, Malezya’da bir eğitim kurumunda da kullanılmaya başlandı.  Malezya’da bu yaz gemilerde halihazırda çalışan personelin Engine Room Team Management (Makine Dairesi Takım Yönetimi) eğitimlerinde kullanılmaya bu yaz başlayacak olan SERSTM, güz 2022 dönem başında denizciliğe aday 3 ve 4üncü sınıf öğrencilerin eğitimlerinde kullanılmaya başlanacak.  Safha safha kurulum planlanan SERS için 22 Haziran 2022 tarihinde 6 öğrencinin eğitim alabileceği sistem kurulmuş ve öğrenci sayısı arttırılarak kurulum devam edecek.

SERS Team testing the simulator functions at the ITUMF Campus.

Malezya’da bulunan eğitim kurumuna uzaktan erişimle başarılı bir şekilde kurulan SERSTM, Malezya’daki denizci eğiticilerinin de yeni gözdesi oldu. Kurulum sırasındaki aşamaların koordinatörlüğünü üstlenen ve SERS™ geliştiren grupta bulunan Çağrı Berk Güler’e göre yurt dışındaki eğitim kurumlarının ve şirketlerinin tercihinin en büyük sebeplerinden biri uzaktan kurulumun gerçekleşebilmesi ve programın Windows tabanlı sitemlerle uyumluluğunun çok kolay sağlanabilmesi.

Chief Engineer Nazir Hamzah converted the classroom into Engine Room Team Management Training Lab. using SERS™.
Chief Engineer Nazir Hamzah converted the classroom into Engine Room Team Management Training Lab. using SERS™. More components and licenses will be added incrementally. It is a great aproach for starting the education and training.

Malezya’daki eğitim kurumunda tamamen uzaktan erişimle kullanılmaya hazır hale getirilen simülatör, eğitim bilgisayarlarına kurulduktan sonra eğitimlerde kullanılmaya başlandı. Kurum, SERS™’i uzaktan kullanarak ve çok beğenerek karar verdiklerini ve pilot sınıf uygulamasından sonra bütün laboratuvar sınıfları için yazılımın kullanılmasını planladıklarını belirtti.

ERS Training Plant GDS Engineering Inc SERS Full Mission Engine Room Simulator Layout and Equipment Arrangement

SERS™, IMO STCW 2010 yeterlilik tablolarında belirtilen, bir makine dairesi simülatörü kullanılarak verilen eğitimlerin tamamını kapsamaktadır. Ayrıca, IMO Model Kursu 2.07 (2017) Uygulamalarını dakapsayan SERS™, hali hazırda eğitim veren kurumlarda kullanılan simülatörlerde bulunmayan birçok akademik ve uygulama pratiği sunmasından dolayı özellikle yurt dışında ses getirmeye başlamış ve Türkiye pazarında da denizcilik sektörünün dikkatini çekmiştir. Birçok değişik konfigürasyonlarda kurulum yapılarak değişik bütçeler ile tedarik edilmeye müsait modüler yapıda geliştirilen SERS™ ’in önemli özellikleri, rakiplerine ait ürünlerden üstünlükleri ve farklılıkları ile uygulama konfigürasyon çeşitleri GDS firması web sitesinde (www.GlobalDynamicSystems.com) detaylı olarak anlatılmaktadır.

TÜBİTAK projeleri ,le başlayıp, Teknopark İstanbul’da GDS’nin kendi imkanları ile geliştirilmeye devam eden SERS’in uluslararası seviyeye gelmesi hepimizi gururlandırmıştır. Gençlerimize yeni ürün geliştirime, ARGE ve inovasyon konularında iyi bir örnek olması dileklerimizle.

Denizcilik Dergisi’nde ilgili yazıyı okumak için tıklayınız.

GDS Ship Engine Room Simulator özellikleri ve detaylı bilgisini görüntülemek için tıklayınız.

Ship Engine Room Simulator (ERS) SERS GDS Engineering R&D IMO STCW 2010, Engine Performance, Main Diesel Engine, Marine, Maritime, IMO Model Course 2.07. Certified by ClassNK. ITU Maritime Faculty. Yıldız Technical University. Competencies. Operation and Management Level. Education and Training. Assessment of Marine Engineers. Troubleshooting with Fault Tree Scnearious and Analysis Reporting. Objective Assessment. Nippon Kaiji Kyokai.High Voltage Training Functions 6600 VAC. Ship Propulsion Systems. Maritime Education and Training. Main Engine Performance. Sunken Diagrams. Energy Efficiency. Marine Engineering. Effect of Draft Change in the Ship Main Engine Performance Parameters. Management Level Training Exercices, Marine Engineering Education and Training. SERS Trademark

Operating Marine Diesel Engines – IMO STCW 2010 Competency Requirements

Operation of the engine room machinary and systems: Watch GDS Engine Room Simulator Demonstration Videos

Watch the videos demonstrated by our students. Operation of the engine room machinary and system in accordance with the IMO Compentency Requirements.

Thanks fr watching and please communicate with us if you would like to have this training system be incorporated in your training programms.

Ship Engine Room Simulator (ERS) SERS GDS Engineering R&D IMO STCW 2010, Engine Performance, Main Diesel Engine, Marine, Maritime, IMO Model Course 2.07. Certified by ClassNK. ITU Maritime Faculty. Yıldız Technical University. Competencies. Operation and Management Level. Education and Training. Assessment of Marine Engineers. Troubleshooting with Fault Tree Scnearious and Analysis Reporting. Objective Assessment. Nippon Kaiji Kyokai.High Voltage Training Functions 6600 VAC. Ship Propulsion Systems. Maritime Education and Training. Main Engine Performance. Sunken Diagrams. Energy Efficiency. Marine Engineering. Effect of Draft Change in the Ship Main Engine Performance Parameters. Management Level Training Exercices, Marine Engineering Education and Training. SERS Trademark

Effect of Weather on the Marine Propulsion Engine Performance Onboard a Ship

IMO Model Course Exercise recommends students learn the weather change effect on engine performance.

GDS Engineering R&D developed a modern Engine Room Simulator (ERS) and it is in use by various research and training institutions. GDS ERS, called SERS, includes all engine room, ship, and environmental paramaters to demonstrate the weather effect to engine performance while onboard systems are maintaining their status with the displayed parameters. This scenario study is a predefined and set in the ERS for instructors to directly apply in their STCW Management Level Exercises. Student Workbooks accomodate this exercise with specficic forms to fill by the trainees.

Ship Engine Room Simulator (ERS) SERS GDS Engineering R&D IMO STCW 2010, Engine Performance, Main Diesel Engine, Marine, Maritime, IMO Model Course 2.07. Certified by ClassNK. ITU Maritime Faculty. Yıldız Technical University. Competencies. Operation and Management Level. Education and Training. Assessment of Marine Engineers. Troubleshooting with Fault Tree Scnearious and Analysis Reporting. Objective Assessment. Nippon Kaiji Kyokai.High Voltage Training Functions 6600 VAC. Ship Propulsion Systems. Maritime Education and Training. Main Engine Performance. Sunken Diagrams. Energy Efficiency. Marine Engineering. Effect of Draft Change in the Ship Main Engine Performance Parameters. Management Level Training Exercices, Marine Engineering Education and Training. SERS Trademark

Capture GDS Vision in the Engine Room Simulator Development

GDS Engineering R&D is a research and development company, established by the academicians employed at Istanbul Technical University Maritime Faculty, Tuzla, Istanbul. GDS SERS Development Team has been utilizing engine room simulators since 2001, every year for training of marine engineering students with the following two engineering courses:

ERS I Operational Level Simulator Course: This course is for STCW Operational Level Proficiency Training after completing other Operational Level Courses at 4-year-university level. It is 4 hrs a week continuing for 14 weeks per semester. Each student must take this course to be eligible for long term training onboard a ship.

ERS II Management level Simulator Course: This course is to satisfy the proficiency levels for Management Level. It is 3 hours for 14 weeks and each student must complete the onboard training and then after completing this class for graduation.

Effect of Draft Change in the Ship Main Engine Performance Parameters IMO Model Course 2.07, IMO, STCW 2010, Management Level Training Exercices, Marine Engineering Education and Training, Maritime. GDS Engineering R&D, SERS, Trademark

Through using simulators in both of these courses since 2001, we gained a good level of expertise on the use of simulators in Maritime Education & Training. Our team has also provided Training of Trainers courses IMO Model Courses 6.09 and 6.10. Some of our team members provided on site training at other Turkish institutions and became experienced on using simulators developed by various manufacturers.

Experienced in academic, engineering, and simulator courses, we have started describing a new simulator, aiming to provide an engine room simulator with the following important characteristics:

  • Reduction of Learning Time of the Software to Focus on Engine Room Systems Training:
    • Having different mouse key assignments or keyboard shortcuts in a simulator for various software functions and controls make the software much more complex to use and that affect the training objectives negatively. Therefore;
    • SERS provide a much less complex user interface allowing trainees focus on the professional tasks for “running the engine room systems” rather than “running the simulator.”
    • All GUI panels are easily displayed or closed:

“1-Click” Approach for ease of use:

  • All sysems are operated with a left mouse click.
  • All software functions are activated with a left mouse click.
  • All selections are made with a left mouse click.
  • No hidden functions or keys to use for activating a specific panel.

Fidelity and Realism

    • Having a more accurate approach on how to display and how to operate the systems and components.
    • Realistic functionality of pumps, compressors, engines, etc. with mathematical modeling reflecting the realistic time durations and process dynamics.
    • Realistic remote and local control for the pumps and compressors.
    • Realistic graphical user interface for electrical system (Circuit Breakers, Remote Panels, Synchronization Panel, etc.)
    • Piping and Instrumentation Diagram (P&ID) objects, such as valves, are designed and shown in accordance with the respective international standards. Also, real engine rooms are studied to understand and display the controls, valves, and similar objects with a more understandable object design.
    • Pipe colors are selected to fit to the international standards. This provides a more comprehensive maritime education approach and ensures enough practice opportunity for diagram reading in the real engine room.
    • Components are created with various drawing and design software packages, then they are animated for better understanding, and better on-off state indications. For example, trainee could understand a pump is turning and could see there is a flow in a pipe with both color change and observed parameters.
    • Enough/necessary parameters displayed to understand the engineering principles.
    • Emphasis on Safety Systems (CO2 Fixed Fire Installation system is included as a separate panel)
    • Emphasis on Upcoming Regulations or Technology (Inclusion of ME Denoxification system as a separate panel).
    • Basic sounds (alarms and engine sounds) are implemented. Alarms are implemented appropriately as in the real environment with SILENCE, ACKNOWLEDGE and RESET buttons.

Unique Assessment Features

SERS provides direct evaluation methods with objective evidence of training with the following training outputs:

  • A text based training report generated for each trainee for each training session.
  • Screen captures generated for each user action and recorded in a historic time order, allowing to monitor and display the complete flow of the trainee actions.
  • Instructor monitoring and reaction time display and record for each trainee.
  • Trainee tools to easily record and maintain the training records.
  • More Accurate Philosphy is developed for use of SERS for a more Efficient and Realistic “Team Management” Training
    • “Repeating all functions in distributed computers” approach cause students tend to complete all training functions from one computer only. However;
    • SERS architecture allow for distributing panels to different units without repeating. Student must complete the task from its designated location.
Ship Engine Room Simulator (ERS) SERS GDS Engineering R&D IMO STCW 2010, Engine Performance, Main Diesel Engine, Marine, Maritime, IMO Model Course 2.07. Certified by ClassNK. ITU Maritime Faculty. Yıldız Technical University. Competencies. Operation and Management Level. Education and Training. Assessment of Marine Engineers. Troubleshooting with Fault Tree Scnearious and Analysis Reporting. Objective Assessment. Nippon Kaiji Kyokai.High Voltage Training Functions 6600 VAC. Ship Propulsion Systems. Maritime Education and Training. Main Engine Performance. Sunken Diagrams. Energy Efficiency. Marine Engineering. Effect of Draft Change in the Ship Main Engine Performance Parameters. Management Level Training Exercices, Marine Engineering Education and Training. SERS Trademark

A new and modern Engine Room Simulator (ERS) has recently been certified by Class NK: It Meets the Online Training Requirements of IMO STCW 2010 and Model Course 2.07

Ship Engine Room Simulator (Ship ERS or SERS™) is certified to meet both IMO STCW 2010 and IMO Model Course 2.07 Exercise Requirements

SERS™ User Manuals

SERS™ is provided with a total of seven (7) user manuals, student exercise workbooks, and documents as complementary to the training practices. All these documents are supplied with a license purchase. Using the SERS™ document set in classroom study also promotes the real-world engine room best work practices of using manuals in operation and management of the engine room machinary and systems.

SERS User Manual Vol I (Software Description) describes the SERS software with the SERS Graphical User Interface (GUI) Panels accessed from the SERS Main Graphical User Interface (GUI) Panel.

SERS User Manual Volume II (Engine Room Operations) includes the operational instructions on how to operate the engine room systems and machinery using the SERS. The training institutions can directly use the contents of this manual in their training procedures. There are also exercises included for use by the trainees for reporting.

SERS User Manual Vol III (Installation & Configuration) describes the installation and the configuration of the software and hardware items. Using this manual, SERS can be configured to run as a Distributed System and the touch screen hardware panels can be assigned to desired GUI panels using the configuration files.

SERS User Manual Volume IV (Instructor’s Manual) includes guides, information, and additional exercise tips for the instructors to utilize SERS in their trainings according to a specific training objective.

Student Exercise Workbooks per IMO Model Course 2.07

Student Exercise Workbook, Volume I: We are already using the simulator in our own training programs and developed Volume I with exercies that meets each objectives of the IMO Model Course 2.07. Volume I exercises includes the Engine Room Operational Level training objectives.

Student Exercise Workbook,Volume II: Volume II exercises includes the Engine Room Management Level training objectives in accordance with IMO Model Course 2.07.

SERS Philosophy Document provides how SERS may be used in a curricula or in engine room simulator training programs. It provides guides for selecting the configuration of the SERS according to the training objectives.

Students can Complete and Report the IMO Model Course 2.07 Exercises with Online Training

IMO Model Course Engine-Room Simulator 2.07 (2017 Edition)

  • Familiarization
  1. Familiarization
    1.1 Plant arrangement
    1.2. Instrumentation
    1.3. Alarm system
    1.4. Controls
  • Operation of plant machinery
    2.1. Operational procedures
    2.2 Operate main and auxiliary machinery and
    systems
    2.3. Operation of diesel generator 20
    2.4. Operation of steam boiler
    2.5. Operation of main engine and associated
    auxiliaries
    2.6. Operation of steam turbo generator
    2.7. Operation of fresh water generator
    2.8. Operation of pumping system
    2.9. Operation of oily water separator
    2.10. Fault detection and measures
  • Maintain a safe engineering watch 19
    3.1. Thorough knowledge of principles to be observed in keeping an engineering watch
    3.2. Safety and emergency procedures; changeover of remote/automatic to local control of all systems
    3.3. Safety precautions to be observed during a watch and immediate actions to be taken in the event of fire or accident, with particular reference to oil systems
    3.4. Knowledge of engine room resource management principles
  • Operate electrical, electronic and control systems
    4.1. Operation of main switch board
    4.2. High-voltage installations
  1. Manage operation of electrical and electronic……

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Engine Room Simulator (ERS), IMO Model Course 2.07, IMO STCW 2010, Class Certificate, Marine Engineering Training & Evaluation
Line Up - ME Fresh Water Cooling System IMO STCW 2010 Training, IMO Model Course 2.07. Prevent Maritime Accidents. Training is Important. Marine Engineering Training Products, Ship Engine Room Simulator, Ship ERS or simply the SERS, provided by GDS Engineering R&D. Cost Reduction. Covid-19. Virtual Systems. Digital Twin. Industry 4.0. Maritime 4.0. Denizcilik 4.0. Engine Room 4.0.
Line Up - ME Fresh Water Cooling System IMO STCW 2010 Training, IMO Model Course 2.07. Prevent Maritime Accidents. Training is Important. Marine Engineering Training Products, Ship Engine Room Simulator, Ship ERS or simply the SERS, provided by GDS Engineering R&D.
Energy Management Exercise with GDS Ship ERS (SERS) iaw IMO Model Course 2.07, IMO STCW 2010 (with Manila Amendments). Heat Transfer. Ship's Main Engine. ME Energy. Energy Reduction. System Troubleshooting. Class NK certified Engine Room Simulator.
Ship Engine Room Simulator Electrical Systems IMO STCW 2010 Model Course 2.07, with High Voltage Training, IMO STCW Appendix-A (2/2) Table A-III/6
Effect of Draft Change in the Ship Main Engine Performance Parameters IMO Model Course 2.07, IMO, STCW 2010, Management Level Training Exercices, Marine Engineering Education and Training, Maritime. GDS Engineering R&D, SERS, Trademark
Ship Engine Room Simulator ERS Bow Thrustor IMO STCW 2010 Model Course 2.07
Ship Electrical Systems Engine Room Simulator Sample GUI Screens IMO STCW 2010 Containership
Ship Engine Room Simulator Compressed Air System Electrical Systems IMO STCW 2010 Model Course 2.07
Ship Engine Room Simulator Circuit Breakers Electrical Systems IMO STCW 2010 Model Course 2.07
Ship Engine Room Simulator TM
SERS Main GUI - Industry Maritime 4.0 Digital Twin Example
Line Up - ME Fresh Water Cooling System IMO STCW 2010 Training
ERS-Manifolds-and-Turbochargers-of-Main-Engine
Energy Management Exercise with GDS Ship ERS (SERS) iaw IMO Model Course 2.07 - Figure01
Ship Engine Room Simulator Electrical Systems IMO STCW 2010 Model Course 2.07 (1)
GDS Ship ERS Effect of Draft Change on ME Parameters Fig02
Ship Engine Room Simulator ERS Bow Thrustor IMO STCW 2010 Model Course 2.07
Ship Engine Room Simulator Sample GUI Screens IMO STCW 2010 Containership
Ship Engine Room Simulator Compressed Air System Electrical Systems IMO STCW 2010 Model Course 2.07
Ship Engine Room Simulator Circuit Breakers Electrical Systems IMO STCW 2010 Model Course 2.07
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GDS Engine Room Simulator: Our Customers and Collaborations

References of GDS Simulator Products
&
Engineering/Consultancy Services
in
Maritime Training and Research

Engine Room Simulator (ERS). Ship Engine Room Simulator. IMO STCW 2010 Training. Marine Engineering Cadets. Maritime. IMO Model Course 2.07. Online Training. COVID-19. Certified by Class NK, IACS Member. Maritime Education and Training (MET)Engine Room Simulator (ERS). Ship Engine Room Simulator. IMO STCW 2010 Training. Marine Engineering Cadets. Maritime. IMO Model Course 2.07. Online Training. COVID-19. Certified by Class NK, IACS Member. Maritime Education and Training (MET). Containership. Yacht Taining. Tanker Personnel.
Engine Room Simulator (ERS). Ship Engine Room Simulator. IMO STCW 2010 Training. Marine Engineering Cadets. Maritime. IMO Model Course 2.07. Online Training. COVID-19. Certified by Class NK, IACS Member. Maritime Education and Training (MET). Containership. Yacht Taining. Tanker Personnel.MILPER, Project Studies with Dr Ismail Cicek 2012-2014, Maritime Propeller R&D, Development and Testing
Engine Room Simulator (ERS). Ship Engine Room Simulator. IMO STCW 2010 Training. Marine Engineering Cadets. Maritime. IMO Model Course 2.07. Online Training. COVID-19. Certified by Class NK, IACS Member. Maritime Education and Training (MET). Containership. Yacht Taining. Tanker Personnel.Karpowership logo - GDS Engineering R&D Services Karadeniz HoldingEngine Room Simulator (ERS). Ship Engine Room Simulator. IMO STCW 2010 Training. Marine Engineering Cadets. Maritime. IMO Model Course 2.07. Online Training. COVID-19. Certified by Class NK, IACS Member. Maritime Education and Training (MET). Containership. Yacht Taining. Tanker Personnel.
Simulator Studies in Cooperation between SDT and GDS Engineering R&Dtuzeks gds Engine Room Simulator (ERS) Engine Tests, Vibration Testing, Consultancy, KOSGEB Project
Engine Room Simulator (ERS). Ship Engine Room Simulator. IMO STCW 2010 Training. Marine Engineering Cadets. Maritime. IMO Model Course 2.07. Online Training. COVID-19. Certified by Class NK, IACS Member. Maritime Education and Training (MET). Containership. Yacht Taining. Tanker Personnel.
tülomsaş, R&D study, Milli Dizel Motoru Çalışması, ARGE, TÜBİTAK, Dizel Motorlarda Verimlilik, İTÜ

GDS ERS meets both IMO STCW 2010 Competency/Training Requirements and IMO Model Course 2.07 Exercise Requirements

Click here to read all details…

Highlights of the GDS Engine Room Simulator:
  • Certified for use in training and education of marine engineering cadets.
  • Certified by ClassNK, a Japanese Classification Society. Class NK is an official member of IACS.
  • Certification includes IMO STCW 2010 (with Manila Amendments)
  • Certification type is Full Mission (Class A) type approval.
  • Certification includes IMO Model Course 2.07 (2017 Edition).
  • Applicable for Remote (Online) Training
  • Provides two types of mostly used engine modes.
  • Simulates all engine room machinery and systems with more than 50 GUI Panels.
  • Satisfies the High Voltage Training requirements.
  • Includes Environmental Pollution modules, such as Ballast Water Treamen, Oily Water Separator, ME Denoxification System, and others.
  • Includes Energy Efficiency modules. Students can compare theoretical studies against the simulator instances using Sunken Diagrams.
  • Includes engine performance monitoring tools. Students are able to compare the current values againt the baselined ship’s navigation test as well as main engine’s factory test data. The baselined test data are presented within the software to the students with graphs. This our unique approach is to actually duplicate the real world work environment of wachkeeping engineers checking the parameters against the user manuals and engine books with test data.
  • Provides a realistic environment for emergency operations with all required systems.

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