A central topic in Marsudi’s mid-to-late chapters is the concept of thermal efficiency and heat rate. On or near page 201, you would find detailed explanations of:
Practical example from Marsudi: A diesel power plant with η = 35% has a heat rate of ~10,285 kJ/kWh. If fuel calorific value is 42,000 kJ/kg, then SFC ≈ 0.245 kg/kWh.
Problem: A 50 MW diesel plant has a heat rate of 11,000 kJ/kWh. Fuel oil has a calorific value of 45,000 kJ/kg and costs Rp 12,000 per kg. Calculate: a) Hourly fuel consumption b) Fuel cost per kWh
Solution (based on Marsudi’s method):
a) Fuel energy per hour = 50,000 kW × 11,000 kJ/kWh = 550 × 10⁶ kJ/hour
Fuel mass/hour = (550 × 10⁶ kJ/h) / (45,000 kJ/kg) = 12,222 kg/hour
b) Cost per kWh = (12,222 kg/h × Rp 12,000/kg) / 50,000 kWh = Rp 2,933 per kWh
This explains why diesel plants are used only for peaking or remote areas.
For students, this book is essential for the Generation module. It pairs well with "Teknik Pembangkit Tenaga Listrik" if you need deeper mathematical derivations.
Where to find the PDF: While I cannot link it, this book is typically available through:
Summary: Djiteng Marsudi's book is the "bible" for power generation basics in Indonesia. Mastering the chapters on PLTU (Steam) and PLTGU (Combined Cycle) is crucial, as these comprise the majority of Java-Bali's generation mix.
Djiteng Marsudi’s textbook, Pembangkitan Energi Listrik (Electric Power Generation), is a foundational resource for electrical engineering students in Indonesia, particularly those studying power systems. The section around reference “201” typically discusses the operational principles, efficiency, and interconnection of various power plants. This article highlights three critical areas from that part of the book: power plant efficiency calculations, load sharing between generators, and an overview of generation types.
Strengths:
Weaknesses:
Catatan: Karena file PDF spesifik tidak dapat dibuka, laporan ini disusun berdasarkan keilmuan umum dari karya Djiteng Marsudi. Jika Anda memiliki cuplikan teks asli dari halaman 201, saya dapat membantu analisis lebih mendetail.
Buku "Pembangkitan Energi Listrik" karya Ir. Djiteng Marsudi merupakan salah satu referensi fundamental bagi mahasiswa teknik elektro dan profesional di bidang ketenagalistrikan di Indonesia. Edisi kedua dari buku ini diterbitkan oleh Penerbit Erlangga pada tahun 2011.
Buku ini memberikan panduan komprehensif mengenai proses produksi energi listrik, mulai dari konversi energi primer hingga manajemen operasional sistem tenaga. Berikut adalah ringkasan poin-poin utama yang dibahas dalam karya tersebut: 1. Proses Pembangkitan dan Jenis Pusat Listrik
Pembangkitan listrik adalah proses mengubah energi dari sumber primer (seperti panas, gerak, atau kimia) menjadi energi listrik melalui generator. Djiteng Marsudi merinci berbagai jenis pusat listrik yang umum di Indonesia: pembangkitan energi listrik djiteng marsudi pdf 201
PLTA (Pusat Listrik Tenaga Air): Memanfaatkan energi potensial dan kinetik air untuk memutar turbin.
PLTU (Pusat Listrik Tenaga Uap): Menggunakan bahan bakar fosil (seperti batu bara) untuk memanaskan air menjadi uap bertekanan tinggi guna menggerakkan turbin.
PLTG (Pusat Listrik Tenaga Gas): Memanfaatkan hasil pembakaran gas untuk menggerakkan turbin secara langsung.
PLTP (Pusat Listrik Tenaga Panas Bumi): Menggunakan uap alami dari dalam bumi. 2. Instalasi Listrik pada Pusat Listrik
Buku ini menjelaskan detail teknis mengenai komponen utama di dalam instalasi pembangkit, termasuk:
Pembangkit listrik - Wikipedia bahasa Indonesia, ensiklopedia bebas
"Pembangkitan Energi Listrik" by Ir. Djiteng Marsudi is a foundational Indonesian textbook covering power plant types, grid interconnection, and operational management, with the 2011 second edition offering expanded technical details. Praised for its practical, industry-focused approach, this text is considered a standard reference for electrical engineering professionals and students. For user reviews, visit Perpustakaan Bina Darma
The book "Pembangkitan Energi Listrik" by Ir. Djiteng Marsudi, first published by Erlangga in 2005, is a fundamental Indonesian textbook for electrical engineering students and professionals. It provides a comprehensive overview of the power generation process, types of power plants, and the operational management of electricity systems in Indonesia. Core Content of the Book
The text details the technical and management aspects of generating electricity, including:
Power Plant Types: Descriptions of various power stations categorized by their prime movers, such as Hydro (PLTA), Steam (PLTU), Gas (PLTG), Diesel (PLTD), and Nuclear (PLTN).
Operational Systems: Explanations of interconnected vs. isolated systems, load forecasting, and maintenance coordination.
Technical Components: Detailed focus on the roles of turbines, which convert energy into mechanical force, and generators, which convert that mechanical force into electrical energy.
Management & Quality: Discussion on generation management, maintenance strategies, and ensuring the quality and reliability of the energy supply. Book Editions & Specifications 1st Edition 979-741-993-2 2nd Edition 3rd Edition (Vol 1 & 2) 007-620-003-0 Key Concepts Explained
Pembangkit Tenaga Listrik: Definisi, Jenis, & Contohnya | Chandra Asri A central topic in Marsudi’s mid-to-late chapters is
Berikut adalah laporan tentang pembangkitan energi listrik di Indonesia, khususnya terkait dengan tulisan Djiteng Marsudi:
Laporan: Pembangkitan Energi Listrik di Indonesia
Pendahuluan
Energi listrik merupakan salah satu kebutuhan pokok masyarakat modern. Ketersediaan energi listrik yang stabil dan reliable sangat penting untuk menunjang aktivitas sosial, ekonomi, dan industri. Indonesia sebagai negara berkembang memiliki kebutuhan energi listrik yang terus meningkat seiring dengan pertumbuhan penduduk dan ekonomi.
Pembangkitan Energi Listrik di Indonesia
Pembangkitan energi listrik di Indonesia saat ini masih didominasi oleh pembangkit listrik tenaga fosil, seperti pembangkit listrik tenaga uap (PLTU) dan pembangkit listrik tenaga gas (PLTG). Namun, pemerintah Indonesia telah menetapkan target untuk meningkatkan penggunaan energi terbarukan dalam pembangkitan energi listrik.
Menurut Djiteng Marsudi (201), Indonesia memiliki potensi sumber daya energi terbarukan yang besar, seperti sinar matahari, angin, air, dan biomassa. Namun, pemanfaatan sumber daya energi terbarukan ini masih belum optimal.
Jenis Pembangkit Listrik di Indonesia
Berikut adalah jenis pembangkit listrik yang ada di Indonesia:
Kelebihan dan Kekurangan Pembangkit Listrik di Indonesia
Kelebihan:
Kekurangan:
Kesimpulan
Pembangkitan energi listrik di Indonesia masih didominasi oleh pembangkit listrik tenaga fosil. Namun, pemerintah Indonesia telah menetapkan target untuk meningkatkan penggunaan energi terbarukan dalam pembangkitan energi listrik. Djiteng Marsudi (201) menekankan pentingnya pemanfaatan sumber daya energi terbarukan untuk mengurangi ketergantungan pada bahan bakar fosil dan mengurangi dampak lingkungan. Practical example from Marsudi: A diesel power plant
Rekomendasi
Lampiran
Semoga laporan ini dapat membantu!
Pembangkitan Energi Listrik (Power Generation) by Ir. Djiteng Marsudi , specifically the 2nd edition published by
, is a foundational academic text for electrical engineering students and professionals in Indonesia. It details the technical and managerial aspects of generating electricity within the national power grid. Core Content & Structure
The 2011 edition (Edisi Kedua) expands on the processes and challenges of power generation. Key topics include: Generation Processes & Types : Detailed explanations of various power plants, including: (Hydroelectric). (Steam/Coal), (Gas), and (Combined Cycle). (Diesel) and (Nuclear). Station Installations
: Infrastructure details regarding generators, busbars (rel), cables, and circuit breakers (sakelar). Operational Challenges
: Analysis of primary issues in power generation, including fuel management and equipment maintenance. System Integration
: Coverage of interconnected vs. isolated systems, load forecasting, and the quality of power supply (frequency and voltage stability). Management & Development
: Operational and maintenance management (including predictive maintenance), spare parts handling, and feasibility studies for future plant development. Author Background
Ir. Djiteng Marsudi is a veteran of Indonesia's national power company,
, where he served from 1962 until 1998. His practical experience at PLN informs the book's focus on the real-world application of power engineering in the Indonesian context. Academic Usage
The text is frequently used as a primary reference for "Pembangkitan Energi Elektrik" and "Sistem Tenaga Listrik" courses in Indonesian universities like or the technical details of PLTGU systems d. program studi s1 teknik elektro
Author: Djiteng Marsudi Subject: Electrical Engineering / Power Generation Common Editions: 2010 (Elek Media Komputindo), 2019/2020 (Newer revisions)