Tag Archives: POWER PLANT

FILTER UDARA UNTUK POWER PLANT – Confirmed

ACARA

02 – 04 Mei 2018 | Rp 6.900.000,- per peserta di Hotel Ibis, Yogyakarta
07 – 09 Mei 2018 | Rp 6.900.000,- per peserta di Hotel Ibis, Yogyakarta
14 – 16 Mei 2018 | Rp 6.900.000,- per peserta di Hotel Ibis, Yogyakarta
21 – 23 Mei 2018 | Rp 6.900.000,- per peserta di Hotel Ibis, Yogyakarta

25 – 27 Juni 2018 | Rp 6.900.000,- per peserta di Hotel Ibis, Yogyakarta – CONFIRMED

Jadwal Training 2018 Selanjutnya …

 

TRAINING DESCRIPTION FILTER UDARA UNTUK POWER PLANT

This course gives the understanding operation and protection of Electrical Equipment especially in Power Plant of Geothermal and Steam turbine generation.

The main electrical equipment for the above plant are Synchronous generator, Switchgear covering SF6 and Vacuum Power Circuit Breakers, Oil Power Transformer, Transmision and Distribution Conductor, Electric motors, and also Protective Relays. The purpose of this course is to develop a thorough understanding of those electrical equipment.

Discuss safe and proper operation and protection of critical components and application, operation, inspection and testing issues with an overriding emphasis on safety. Case studies covering the main manufacturer’s equipment will illustrate the important practical principles. Other power system protection components will be discussed as well to ensure that main electrical equipment in power plant is understood in the correct context.

TRAINING OBJECTIVE FILTER UDARA UNTUK POWER PLANT

Participants will strongly learn about the following :

  1. Operation and protection of Power Generator, Switchgear, Oil Power Transformer, and Transmission and Distribution Conductors, Protective Relays.
  2. Inspection and testing of the main electrical equipment

 

COURSE CONTENTS FILTER UDARA UNTUK POWER PLANT

  • Boiler Efficiency Calculations
    • Indirect method (ASME PTC 4-1)
    • Direct Method
    • Using simulation tool
    • Economiser & Superheater effectiveness
    • Air heater leakage
  • Steam Turbine Efficiency
    • Turbine heat rate
    • Enthalpy drop efficiency
    • Exhaust loss calculation
    • Control valve and stage loss
    • Steam turbine power generation calculation
  • Condenser Effectiveness
    • Calculation to find out heat transfer coefficient using HEI 8th& 9thedition method
    • Calculation of circulating water flow
  • Feedwater Heater Performance
    • Calculation of extraction flow
    • Calculation of terminal temperature difference (TTD) and drain cooler approach (DCA)
    • Calculation of individual section effectivenes
  • Boiler Feed Pump Performance
    • System performance
    • Boiler feed pump efficiency calculation
  • Fan Performance
  • Cooling Tower Performance
  • Net Plan Heat Rate

 

Metode Training Filter Udara Untuk Power Plant

  • Presentasi
  • Diskusi dan Sharing Pengalaman

 

Jadwal Training Filter Udara Untuk Power Plant

Hotel Ibis Malioboro ,Yogjakarta

  • 02 – 04 Mei 2018
  • 07 – 09 Mei 2018
  • 14 – 16 Mei 2018
  • 21 – 23 Mei 2018
  • 30 Mei – 01 Juni 2018
  • 04 – 06 Juni 2018
  • 25 – 27 Juni 2018
  • 02 – 04 Juli 2018
  • 09 – 11 Juli 2018
  • 16 – 18 Juli 2018
  • 23 – 25 Juli 2018
  • 30 Juli – 01 Agustus 2018
  • 06 – 08 Agustus 2018
  • 13 – 15 Agustus 2018
  • 20 – 21 Agustus 2018
  • 27 – 29 Agustus 2018
  • 03 – 05 September 2018
  • 12 – 14 September 2018
  • 17 – 19 September 2018
  • 24 – 26 September 2018
  • 01 – 03 Oktober 2018
  • 08 – 10 Oktober 2018
  • 15 – 17 Oktober 2018
  • 22 – 24 Oktober 2018
  • 29 – 31 Oktober 2018
  • 05 – 07 November 2018
  • 12 – 14 November 2018
  • 21 – 23 November 2018
  • 26 – 28 November 2018
  • 03 – 05 Desember 2018
  • 10 – 12 Desember 2018
  • 17 – 19 Desember 2018
  • 26 – 28 Desember 2018

Investasi dan Fasilitas Training Filter Udara Untuk Power Plant

  • 6.900.000 (Non Residential, Belum Termasuk Pajak PPn 10%)
  • VIP training Rp 8.900.000 (4 Hari , Non Residential dengan tambahan Fasilitas Paket studi lapangan/ City tour dan Belum Termasuk Pajak PPn 10%)
  • Quota minimum 2 peserta
  • Fasilitas : Certificate,Training kits, USB,Lunch,Coffe Break, Souvenir
  • Untuk peserta luar kota disediakan transportasi antar-jemput dari Bandara/Stasiun ke Hotel khusus bagi perusahaan yang mengirimkan minimal 3 orang peserta)

 

Instruktur Training Filter Udara Untuk Power Plant

Mursid Sabdullah ST MT  and Team

Program Pasca Sarjana Universitas Gadjah Mada Yogyakarta, Dosen di UNRIYO Yogyakarta . Trainer bidang ilmu kelistrikan seperti Sequential and Interlock System untuk berbagai perusahaan skala nasional di berbagai daerah.

FILTER UDARA UNTUK POWER PLANT

Formulir Pra-Pendaftaran Public Training / Permintaan Informasi Lebih Lanjut
  1. JENIS INFORMASI/TRAINING
  2. (required)
  3. (required)
  4. DATA PRIBADI
  5. (required)
  6. (required)
  7. (required)
  8. (valid email required)
  9. (required)
  10. (required)
  11. DATA PRE REGISTRATION (Tidak Mengikat)
  12. (required)
  13. PESAN UNTUK PENYELENGGARA TRAINING
 

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PEMBANGKIT LISTRIK TENAGA ANGIN (WIND TURBINE POWER PLANT) – Half Confirmed

ACARA

17 – 19 April 2018 | Rp 6.000.000,- di Jakarta/ Yogyakarta

 

DESKRIPSI PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

Pembangkit Listrik Tenaga Bayu yang selanjutnya disingkat PLTB adalah pembangkit listrik yang memanfaatkan energi angin (bayu) menjadi listrik sesuai dengan peraturan Menteri EDSM No. 12 Tahun 2017.

Pembangkit listrik tenaga angin merupakan salah satunya energi terbarukan (renewable energy) di Indonesia yang layak untuk dikembangkan, karena Indonesia mempunyai luas lautan yang hampir dua sepertiga dari daratan, sehingga sumber angin dari laut sangat memungkinkan untuk memutar generator sebagai pembangkit tenaga listrik tenaga angin (PLTB).

Secara prinsip mesin pembangkit listrik tenaga angin (PLTB) adalah sebuah generator untuk mengubah energi mekanik menjadi energi listrik, dimana tenaga mekanik ini dihasilkan oleh angin yang akan memutar baling-baling yang berbentuk sudu-sudu blade dan porosnya dikopel dengan mesin generator pembangkit.

Energi angin adalah sumber energi ramah lingkungan yang telah lama diketahui dan dimanfaatkan oleh manusia. Dalam dekade terakhir ini, pemanfaatan energi angin untuk membangkitkan listrik mengalami peningkatan yang sangat signifikan. Teknologi PLTB semakin menjadi pilihan yang menarik, sebab teknologinya sudah mature & proven.

 

MATERI PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

  1. Potensi sumber energi angin
  2. Proses konversi dari energi angin menjadi energi listrik & pemanfaatan lain
  3. Jenis turbine dan penggunaannya
  4. Trend keekonomisan energi angin
  5. Perhitungan dasar pemanfaatan energi angin

 

TUJUAN PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

Setelah mengikuti pelatihan ini, peserta diharapkan mampu:

  • Memahami bahwa sumber energi angin bisa menjadi sumber energi utama bagi manusia pada daerah tertentu.
  • Menghitung secara sederhana pemenuhan kebutuhan energi listrik dengan memanfaatkan energi angin.

 

METODE PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

  • Presentasi dan tanya jawab
  • Metodologi penyelesaian kasus
  • Diskusi interaktif dan studi kasus
  • Pemutaran multimedia

 

PESERTA PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

Peserta dapat diikuti oleh semua yang tertarik pada bidang ini. Selain itu juga dapat diikuti oleh semua yang ingin mengatahui dan mendalami tentang bidang ini.

 

INSTRUKTUR PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

Instruktur yang berpengalaman dan ahli dibidangnya

 

DURASI PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

Pelatihan ini dilaksanakan selam 3 hari

 

TANGGAL PELAKSANAAN PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

17-19 April 2018 atau Disesuaikan dengan kebutuhan calon peserta

 

LOKASI PELATIHAN PEMBANGKIT LISTRIK TENAGA ANGIN

Yogyakarta
– Hotel Kalya Yogyakarta
– Hotel Grage Malioboro Yogyakarta

Jakarta
– Sofyan Inn Hotel tebet, Jakarta Selatan

 

WIND TURBINE POWER PLANT [PEMBANGKIT LISTRIK TENAGA ANGIN]

 

Formulir Pra-Pendaftaran Public Training / Permintaan Informasi Lebih Lanjut
  1. JENIS INFORMASI/TRAINING
  2. (required)
  3. (required)
  4. DATA PRIBADI
  5. (required)
  6. (required)
  7. (required)
  8. (valid email required)
  9. (required)
  10. (required)
  11. DATA PRE REGISTRATION (Tidak Mengikat)
  12. (required)
  13. PESAN UNTUK PENYELENGGARA TRAINING
 

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AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

EVENT

14 – 16 Oktober 2014 | Rp. 8.000.000,- peserta at Cavinton  Hotel, Yogyakarta
11 – 13 November 2014 | Rp. 8.000.000,- peserta at Cavinton  Hotel, Yogyakarta
02 – 04 Desember 2014 | Rp. 8.000.000,- peserta at Cavinton  Hotel, Yogyakarta

 

 TRAINING OUTLINE AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

  1. Power Plant–Fossil fuels
    • Fossil fueled fired generating stations have very precise definition of Thermal efficiency.
    • It is the ratio of heat equivalent of Fuel fired to the heat equivalent of electricity sent to transmission net work.
    • Auxiliary power consumption has two components.
    • Unit auxiliary power consumption & station auxiliary power consumption.
  2. Power plant cycle efficiency
    • Role of Steam Generator is to generate steam which is used to convert heat energy into kinetic energy.
    • Conversion cost includes usage of steam produced for internal consumption such as SCAPH ,TDBFP, Air Condtioning based on VAS
    • power consumption would depend on coal quality and on type of cycle.
    • Why not use better coal, which would lower auxiliary power consumption and an optimum performance can be sustained with less expenditure on O&M Cost.
  3. Power plant cycle efficiency
    • Gross boiler efficiency at any point of operation can be improved by consuming more electricity through Mills & fans.
    • When we are using low cost–inferior coals- we consume more auxiliary power consumption to improve operating efficiency.
    • Usage of an additional pulverizer to handle poor coal results in increased power consumption, however, corresponding improvement in Gross boiler efficiency may not be achieved.
  4. Importance of Auxiliary Power Consumption
    • Degradation of equipment performance can be readily guaged from power consumption .
    • Unit or boiler power consumption is monitored as % of generation which is just a gross index.
    • Power consumption guarantee on boiler covers all major drives
    • Power consumption should be measured together in a typical boiler efficiency test.
  5. Change in plant Conditions with time increases Auxiliary power
    • Air in leakage to boiler gas enclosure
    • Fouling of Boiler heating Surface–higher dry gas loss would increase power consumption
    • Higher draft loss due to air ingress and ash deposition.
    • Air heater leakage/ Air ingress after APH’s
    • Deterioration of Turbine Steam Path Condition.
    • Condenser pressure/ condenser cleanliness- air ingress and extent of tube pluggage
    • Steam and water leaks from drains and vents.
  6. Net Heat Rate
    • Net heat rate monitoring would cover impact of aux. Power consumption of different drive
    • Net heat rate monitoring can be adopted for inernal processess.
    • This would call for individual monitoring of drives using accurate energy meters .
    • Such a system is being introduced as a retrofit in all old plants in ntpc & consumption levels are being tracked from overhaul to overhaul.
  7. Major Drives
    • Drives are listed for a typical 500 mw unit.
    • Auxiliary power consumption measurement can be done as per a standard test code.
    • However no test code covers correction methodology which would be worked out based on process design.
  8. Performance Analysis
    • Measured total power could be different from base line values for changes in operating regime
    • It shall be higher wherever boiler performance has degraded
    • Gross power could be same because some auxiliaries may be doing better and some operating at worse point due to performance degradation
  9. Correction Methodology
    • Correction methodology is jointly developed with vendor as it is not generally covered in test codes
    • Application of correction requires accurate monitoring of process parametes using accurate off line instruments
    • Coal variation would have major effect on unit performance and thus power consumption
  10. Boiler Feed Pump
    • Boiler feed pump is not a boiler
    • Auxiliary and its power consumption varies in response to turbine mode of working and its degradation
  11. Boiler Feed Pump
    • Bfp power consumption constitute a major chunk of power consumed by unit auxiliaries.
    • Usage of steam driven feed pump results in reduction of apc %.
    • Usage of turbo driven feedpump improves cycle efficiency.
    • Any feedback on tdbfp performance due to condenser degradation

TRAINING METHOD AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

  • Presentation
  • Discussion
  • Case Study
  • Evaluation

 

INSTRUKTUR TRAINING AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

Tugino and team

 

TIME AND PLACE AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

  • 14 -16 Oktober 2014
  • 11 – 13 November 2014
  • 02 – 04 Desember 2014

Cavinton Hotel, Yogyakarta

 

TRAINING FEE AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

Rp. 8.000.000,- peserta / non recidential

 

TRAINING FACILITY AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

  • Training Kit
  • Handout
  • Certificate
  • Lunch + 2 X Coffee Break
  • Souvenir
  • Pick up participants

AUXILIARY POWER MEASUREMENT, OPTIMIZATION & ANALYSIS

 

Formulir Pra-Pendaftaran Public Training / Permintaan Informasi Lebih Lanjut
  1. JENIS INFORMASI/TRAINING
  2. (required)
  3. (required)
  4. DATA PRIBADI
  5. (required)
  6. (required)
  7. (required)
  8. (valid email required)
  9. (required)
  10. (required)
  11. DATA PRE REGISTRATION (Tidak Mengikat)
  12. (required)
  13. PESAN UNTUK PENYELENGGARA TRAINING
 

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Power Plant Process

Acara
Senin – Rabu, 21 – 23  Oktober  2013 | Rp. 7.500.000 per peserta di Hotel UNY,  Yogyakarta

 

 ABSTRAK POWER PLANT PROCESS

Pusat listrik adalah tempat dimana proses pembangkitan tenaga listrik dilakukan. Mengingat proses pembangkitan tenaga listrik merupakan proses konversi energi primer (bahan bakar atau potensi tenaga air) menjadi energi mekanik penggerak generator, yang selanjutnya energi mekanik ini diubah menjadi energi listrik oleh generator.

Pembangkitan energi listrik sebagian besar dilakukan dengan cara mengatur generator sinkron sehingga didapat tenaga listrik dengan tegangan bolak-balik tiga fasa. Energi mekanik yang diperlukan untuk memutar Generator sinkron didapat dari mesin penggerak generator atau biasa disebut penggerak mula (prime mover). Mesin penggerak generator yang banyak digunakan dalam pabrik, yaitu : mesin diesel, turbin uap, turbin air, dan turbin gas. Mesin-mesin penggerak generator ini mendapat energi dari :Proses pembakaran bahan bakar (mesin-mesin termal) atau Air terjun (turbin air). Mesin penggerak generator melakukan konversi energi primer menjadi energi mekanik penggerak generator. Proses konversi energi primer menjadi energi mekanik menimbulkan produk  sampingan berupa limbah dan kebisingan yang perlu dikendalikan agar tidak menimbulkan masalah lingkungan.

OUTLINE POWER PLANT PROCESS

  1. Plant Configuration
  2. Static Start System
  3. Inlet System
  4. Compressor
  5. Combustion System
  6. Turbine
  7. Secondary Flow System
  8. Rotor System
  9. Exhaust Diffuser
  10. Turbine Bearings
  11. Lubrication System
  12. Heat Recovery Steam Generator

INSTRUCTOR

 Ir. Teguh Santosa

 

 PARTICIPANT

This training  is used by many community and technical colleges, maintenance personnel, engineers, operators, managers and supervisors.

DATE  AND VENUE

  • Hotel UNY Yogyakarta
  • Senin-Rabu, 21 – 23  Oktober  2013
  • 08.00  – 16.00 WIB

 

TUTION FEE

Biaya Rp. 7.500.000 per peserta (Non Residential)
FACILITIES
Training Modules, Training Kit, Certificate, Exclusive Souvenir, Dinner & City Tour, Coffee Break & Lunch

Power Plant Process

Formulir Pra-Pendaftaran Public Training / Permintaan Informasi Lebih Lanjut
  1. JENIS INFORMASI/TRAINING
  2. (required)
  3. (required)
  4. DATA PRIBADI
  5. (required)
  6. (required)
  7. (required)
  8. (valid email required)
  9. (required)
  10. (required)
  11. DATA PRE REGISTRATION (Tidak Mengikat)
  12. (required)
  13. PESAN UNTUK PENYELENGGARA TRAINING
 

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