Advanced Circuit Breaker (Operations & Troubleshooting)

Offering Training
Advanced Circuit Breaker (Operations & Troubleshooting)
DESCRIPTION
Delegates will gain an overall appreciation of the applicable standards and working practices for: Circuit breaker operation Transient system models for switching transients Modern vacuum distribution switchgear Modern SF6 distribution switchgear Earthing requirements Switching requirements Gas insulated switches Oil circuit breakers Maintenance and Testing of SF6, vacuum, oil and air circuit breakers Trouble shooting of circuit breakers.
WHO SHOULD ATTEND
Electrical power engineers and advanced operating staff of substations, electrical distribution networks and transmission.
OBJECTIVE
1. To know the performance of gas insulated switchgear HV , MV and LV 2. To know the principles of operation of modern circuit breakers 3. To learn how the substations can be earthed 4. To know the ratings of HV , MV and LV & switching and shopping problems 5. To know the performance of modern switchgear 6. To learn how to make maintenance for circuit breakers 7. To know the causes of trouble shooting of the circuit breaker
SUMMARY OUTLINE
Day one • Types of circuit breakers • Operating mechanism of circuit breakers • Electrical switching phenomena • Gas insulated switchgear • Properties of SF6 gas • Handling of SF6 • Breakdown mechanism of SF6 • Circuit breakers principles of operation Day two • Arc interruption • Circuit breaker ratings • Transient system models for switching transients • Transient recovery voltages • Rate of rise of re-striking voltages • Breaking capacity • Making capacity Day three • Capacitive switching and prospective voltages due to shopping of inductive current • Contact travel characteristics of circuit breakers • Switching requirements for stable operation and for safety • Three phase short circuit switching • Modern SF6 switchgear • Maintenance of SF6 circuit breakers and switchgear • Important checks of switchgear during routine maintenance • Testing of switchgear according to standard Day four • Oil and air circuit breakers • Maintenance of oil and air circuit breakers • Modern vacuum switchgear • Maintenance of vacuum circuit breakers • Trouble shooting of circuit breakers • Earthing of switchgear substations • Power earthing and safety earthing • Mechanical rated life of a switching device • Comparison of different types for various switching duties
COURSE METHOD	COURSE SPEAKER
v  Presentation v  Discuss v  Case Study v  Evaluation v  Simulation	Teguh Santoso, Ir Teguh Santoso experienced more than 27 years in electrical.
TIME & VENUE	COURSE FEE
Dafam Fortuna Hotel Jl. Dagen 60 Malioboro Yogyakarta, (0274513439) 1-4 April 2015 1-4 July 2015 2-5 September 2015 3-6 Desember 2015 4 days 08 am – 04 pm	IDR 7,000,000.00 per participant non residential Course fees can be transferred to the following account number : CV JP CONSULTANT : MANDIRI Bank Yogyakarta Branch Acc. No.  1370007857077
FACILITY	INFORMATION AND REGISTRATION
¨  Module / Handout ¨  Certificate ¨  Souvenir ¨  Training Kit	JP Consultant Kalibayem No. 436 Ngestiharjo Kasihan Bantul Yogyakarta Phone        :  02743326339 Email         :  jpconsultantyogyakarta@gmail.com Website     : www.jptrainingcenter.com Contact      : Tina (085741853818)                              (082225972336)

Conveyor Design

Offering Training
Conveyor Design
DESCRIPTION
The course covers the fundamentals of belt conveyor engineering including: belt width and velocity selection, conveyor power demand, belt sag, drive traction, drive types, brakes and holdbacks, information on conveyor arrangements, vertical curves and transitions, material trajectory calculations etc. plus belt, idler and pulley selection. In many of these topics, outdated conventional design methods are challenged and alternative solutions provided. While some people may feel that they already have an adequate understanding of these topics, the real value of this course comes from the fact that it is packed with practical information that is not available in other texts.
WHO SHOULD ATTEND
This course is suitable for engineers employed in the design, operation and maintenance of belt conveyor systems, from graduates with a few years experience, through to engineering and maintenance managers.
OBJECTIVE
The objective of the course is to give engineers a full understanding of the conveyor design and equipment selection process, together with features of belt conveyors that should be avoided. This knowledge can then be used, not only in the design of new conveyor systems, but also by project engineers involved with new conveyors or existing conveyor upgrades and by those involved with the operation or maintenance of conveyor systems.
SUMMARY OUTLINE
1.       Introduction, including brief history of belt conveying. 2.       Material properties. 3.       Conveyor surcharge angle and burden edge distance selection, including the influence of loading area design and belt velocity on surcharge angles. 4.       Idler geometry, including troughing angle and centre roll length considerations. 5.       Belt width and velocity selection. 6.       Flooded belt considerations including determining the length of flooded belt resulting from overlapping stopping times and the approximate force required to extract material from a blocked chute. 7.       Conveyor power demand calculation. 8.       How conveyor design packages work, including basic information on rigid body acceleration and deceleration calculations. 9.       Differences between rigid body and flexible body dynamic analysis. 10.   Belt sag requirements. 11.   Drive traction calculations, including what actually happens at a drive pulley. 12.   Rubber v ceramic lagging. 13.   Outline of drive types. 14.   Brakes 15.   Determination of holdback requirements. 16.   Transitions. 17.   Vertical curves. 18.   Conveyor layouts including features to avoid. 19.   Uneven wear problems on pulleys. 20.   Shuttle conveyors. 21.   Travelling trippers, including the design of tripper belt profiles. 22.   Take-up systems. 23.   Trajectory calculations. 24.   Conveyor belting. 25.   Skirt systems. 26.   Belt safety factor selection, a new method of assessing safety factors. 27.   Minimum pulley diameter determination. 28.   Pulleys. 29.   Conveyor alignment and belt tracking. 30.   Idlers. 31.   Some general info on the design and construction of the Channar 20 km conveying system.
COURSE METHOD	COURSE SPEAKER
v  Presentation v  Discuss v  Case Study v  Evaluation v  Simulation	Teguh Pudji Purwanto, Ir, MT Teguh Pudji Purwanto experienced more than 26 years in mechanical industry.
TIME & VENUE	COURSE FEE
Dafam Fortuna Hotel Jl. Dagen 60 Malioboro Yogyakarta (0274513439) 25-28 Maret 2015 13-16 May 2015 2-5 September 2015 14-17 October 2015 4 days 08 am – 04 pm	IDR 7,000,000.00 per participant non residential Course fees can be transferred to the following account number : CV JP CONSULTANT : MANDIRI Bank Yogyakarta Branch Acc. No.  1370007857077
FACILITY	INFORMATION AND REGISTRATION
¨  Module / Handout ¨  Certificate ¨  Souvenir ¨  Training Kit	JP Consultant Kalibayem No. 436 Ngestiharjo Kasihan Bantul Yogyakarta Phone        :  02743326339 Email         :  jpconsultantyogyakarta@yahoo.com Website     : www.jptrainingcenter.com Contact      : Tina (085741853818)                              (082225972336)

Conveyor Design

Offering Training
Conveyor Design
DESCRIPTION
The course covers the fundamentals of belt conveyor engineering including: belt width and velocity selection, conveyor power demand, belt sag, drive traction, drive types, brakes and holdbacks, information on conveyor arrangements, vertical curves and transitions, material trajectory calculations etc. plus belt, idler and pulley selection. In many of these topics, outdated conventional design methods are challenged and alternative solutions provided. While some people may feel that they already have an adequate understanding of these topics, the real value of this course comes from the fact that it is packed with practical information that is not available in other texts.
WHO SHOULD ATTEND
This course is suitable for engineers employed in the design, operation and maintenance of belt conveyor systems, from graduates with a few years experience, through to engineering and maintenance managers.
OBJECTIVE
The objective of the course is to give engineers a full understanding of the conveyor design and equipment selection process, together with features of belt conveyors that should be avoided. This knowledge can then be used, not only in the design of new conveyor systems, but also by project engineers involved with new conveyors or existing conveyor upgrades and by those involved with the operation or maintenance of conveyor systems.
SUMMARY OUTLINE
1.       Introduction, including brief history of belt conveying. 2.       Material properties. 3.       Conveyor surcharge angle and burden edge distance selection, including the influence of loading area design and belt velocity on surcharge angles. 4.       Idler geometry, including troughing angle and centre roll length considerations. 5.       Belt width and velocity selection. 6.       Flooded belt considerations including determining the length of flooded belt resulting from overlapping stopping times and the approximate force required to extract material from a blocked chute. 7.       Conveyor power demand calculation. 8.       How conveyor design packages work, including basic information on rigid body acceleration and deceleration calculations. 9.       Differences between rigid body and flexible body dynamic analysis. 10.   Belt sag requirements. 11.   Drive traction calculations, including what actually happens at a drive pulley. 12.   Rubber v ceramic lagging. 13.   Outline of drive types. 14.   Brakes 15.   Determination of holdback requirements. 16.   Transitions. 17.   Vertical curves. 18.   Conveyor layouts including features to avoid. 19.   Uneven wear problems on pulleys. 20.   Shuttle conveyors. 21.   Travelling trippers, including the design of tripper belt profiles. 22.   Take-up systems. 23.   Trajectory calculations. 24.   Conveyor belting. 25.   Skirt systems. 26.   Belt safety factor selection, a new method of assessing safety factors. 27.   Minimum pulley diameter determination. 28.   Pulleys. 29.   Conveyor alignment and belt tracking. 30.   Idlers. 31.   Some general info on the design and construction of the Channar 20 km conveying system.
COURSE METHOD	COURSE SPEAKER
v  Presentation v  Discuss v  Case Study v  Evaluation v  Simulation	Teguh Pudji Purwanto, Ir, MT Teguh Pudji Purwanto experienced more than 26 years in mechanical industry.
TIME & VENUE	COURSE FEE
Dafam Fortuna Hotel Jl. Dagen 60 Malioboro Yogyakarta (0274513439) 25-28 Maret 2015 13-16 May 2015 2-5 September 2015 14-17 October 2015 4 days 08 am – 04 pm	IDR 7,000,000.00 per participant non residential Course fees can be transferred to the following account number : CV JP CONSULTANT : MANDIRI Bank Yogyakarta Branch Acc. No.  1370007857077
FACILITY	INFORMATION AND REGISTRATION
¨  Module / Handout ¨  Certificate ¨  Souvenir ¨  Training Kit	JP Consultant Kalibayem No. 436 Ngestiharjo Kasihan Bantul Yogyakarta Phone        :  02743326339 Email         :  jpconsultantyogyakarta@yahoo.com Website     : www.jptrainingcenter.com Contact      : Tina (085741853818)                              (082225972336)