Power Generation In-Depth Advance Market by Technology (Coal-fired, Natural Gas-fired, Oil-fired, Geothermal, Hydro, and Combined Cycle Power Generation) - Indonesia Industry Analysis, Size, Share, Growth, Trends and Forecast 2017 - 2022
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| Power Generation |
Albany, New York, Apr 24, 2017
"Power
Generation Market by Technology (Coal-fired, Natural Gas-fired,
Oil-fired, Geothermal, Hydro, and Combined Cycle Power Generation) -
Indonesia Industry Analysis, Size, Share, Growth, Trends and Forecast
2017 - 2022"
The Report covers current Industries Trends, Worldwide Analysis,
Global Forecast, Review, Share, Size, Growth, Effect.
Description-
The
power industry is one of the largest and essential industries
globally. There is a direct correlation between the development of a
nation and its power industry. No country can achieve economic and
social prosperity without adequate investments in electrification
across the nation. Several power projects are planned in developing
economies in Asia Pacific as these economies continue to expand their
power generation capacities to meet the rising electricity demand. In
the last few years, several developed economies have permitted the
entry of private companies in the power industry. This step has
introduced competition in the power industry, especially in the
generation and retail supply of electricity. This market
liberalization has further improved production efficiency of the
overall industry.
In
Indonesia, the power generation market is still dominated by the
government-owned PT PLN. Approximately 85% of power generation
facilities and the entire transmission & distribution network is
solely controlled by PT PLN. The coal mining industry is developed in
Indonesia with several private players investing in this market. Coal
still continues to account for a major share in the global power
generation industry. Although the share of coal is anticipated to
decline in the future years, it would continue to be the major fuel
in the short-term outlook.
This research study is designed to analyze the power generation
market in Indonesia. The market is calculated in terms of power
generation capacity (GW), power generation (TWh), and revenue (USD
Billion). The market for power generation has been segmented on the
basis of six major power generation technologies in Indonesia. These
include coal-fired, natural gas-fired, oil-fired, geothermal, hydro,
and combined cycle (gas-steam). The report provides growth forecast
for the period 2017–2022. Projections have been provided for power
generation installed capacities, power generation, and revenue. The
study on the power generation market also provides historical data,
detailed analysis, and statistically refined forecast for key
technology segments.
The size of the power generation market has been estimated based on
indicators in technology segments. The report includes the key market
dynamics affecting the demand for power generation technologies. As a
part of our market dynamics analysis, we have analyzed market
drivers, market restraints, and market opportunities in Indonesia. A
comprehensive landscape, which includes company market share analysis
and market attractiveness analysis, has also been provided in this
report. Company market share analysis has been provided for major
players involved in power generation in Indonesia. Market
attractiveness analysis has been provided for six power generation
technologies in Indonesia.
The report also provides a detailed industry analysis of the power
generation market in Indonesia with the help of Porter’s Five
Forces Model. The Porter’s Five Forces analysis aids in
understanding the five major forces that affect the industry
structure and profitability of the global power generation technology
market. The forces analyzed are the bargaining power of buyers,
bargaining power of suppliers, threat from new entrants, threat from
substitutes, and degree of competition. The Porter’s Five Forces
analysis has been provided across the geographies studied in the
report.
The report features an in-depth analysis of trends observed in each
of the power generation technology segments provided in the report.
Various new technologies, which are influencing the market dynamics
of each power generation technology, have been identified and
highlighted. Emerging trends for each power generation technology
have been addressed for Indonesia.
The study also includes the value chain of the power generation
market in Indonesia, which provides a glimpse of fuel procurement,
contract awarding, power generation, as well as the interaction of
suppliers and buyers with the end-users of the product. The market
attractiveness has been primarily done considering the market size
and market growth. Besides market size and growth, government
support, regulatory policies, environment benefits, and availability
of resources have also been considered to rank/benchmark major
technologies for each region.
Key participants in the power generation market in Indonesia include
Alstom S.A., PT Arutmin Indonesia, Asia Resource Minerals plc,
Chevron Indonesia, Hyundai Engineering Co. Ltd., Medco Power
Indonesia, Mitsubishi Heavy Industries Ltd., PT Adaro Energy Tbk., PT
Bumi Resources Tbk., PT Cirebon Electric Power, PT Geo Dipa Energi,
PT Harum Energy Tbk., PT Indonesia Power, PT Jawa Power, PT Pertamina
Geothermal Energy, PT PLN, PT Wartsila Indonesia, PT. Pembangkitan
Jawa-Bali, Siemens AG, United Coal Indonesia. This report provides an
overview of these companies, followed by their financial revenues,
business strategies, technical performance analysis, operational
standards, and awards and achievements.
– Indonesia Power Generation Market:
Technology Analysis
- Coal-fired Power Generation
- Natural Gas-fired Power Generation
- Oil-fired Power Generation
- Geothermal Power Generation
- Hydro Power Generation
- Combined Cycle Power Generation
–
Table
of Contents
Chapter 1 Preface
1.1 Report Description
1.2 Research Scope
1.3 Market Segmentation
1.4 Research Methodology
Chapter 2 Executive Summary
2.1 Indonesia Power Generation Capacity Estimates and Forecast, 2013
– 2022 (GW)
2.2 Indonesia Power Generation and Revenue Estimates and Forecast,
2013 – 2022 (TWh) (USD Billion)
Chapter 3 Indonesia Power Generation Market – Industry
Analysis
3.1 Introduction
3.2 Value Chain Analysis
3.2.1 Coal-fired Power Generation Market
3.2.2 Natural Gas-fired Power Generation Market
3.2.3 Oil-fired Power Generation Market
3.2.4 Geothermal Power Generation Market
3.2.5 Hydro Power Generation Market
3.2.6 Combined Cycle Power Generation Market
3.3 Market Dynamics
3.3.1 Market Drivers
3.3.1.1 Mining Companies in Indonesia Playing Active Role in
Developing Coal-Fired Power Plants
3.3.1.2 Burgeoning Mining and Quarrying Sector Expected to Support
Growth in Power Generation Industry
3.3.1.3 Abundance of Natural Gas Reserves Boosting Development of
Gas-Fired Power Generation Industry
3.3.2 Market Restraints
3.3.2.1 Lack of Proper Infrastructure is Severely Hampering Power
Generation Capacity Additions
3.3.3 Market Opportunity
3.3.3.1 Growth in Foreign Direct Investments Can be Highly Beneficial
for Power Generation Sector
3.3.3.2 Conducive Government Policies and Incentives Targeted Towards
Renewable Energy Resources Development
3.4 Porter’s Five Forces Analysis
3.4.1 Bargaining Power of Suppliers
3.4.2 Bargaining Power of Buyers
3.4.3 Threat from Substitutes
3.4.4 Threat from New Entrants
3.4.5 Degree of Competition
3.5 Technology Trend Analysis
3.5.1 Coal-fired Power Generation
3.5.2 Natural Gas-fired Power Generation
3.5.3 Oil-fired Power Generation
3.5.4 Geothermal-fired Power Generation
3.5.5 Hydro Power Generation
3.5.6 Combined Cycle Power Generation
3.6 Market Attractiveness Analysis
3.6.1 Market Attractiveness Analysis of Indonesia Power Generation
Market, by Technology, 2013
3.7 Company Market Share Analysis
3.7.1 Indonesia Power Generation Market: Company Market Share
Analysis, 2013 (%)
Chapter 4 Indonesia Power Generation Market – Technology
Analysis
4.1 Indonesia Power Generation Market: Technology Overview
4.1.1 Indonesia Power Generation Capacity Estimates and Forecast, by
Technology, 2013 & 2022 (GW)
4.2 Coal-fired Power Generation
4.2.1 Indonesia Coal-fired Power Generation Capacity Estimates and
Forecast, 2013 – 2022 (GW)
4.2.2 Indonesia Coal-fired Power Generation and Revenue Estimates and
Forecast, 2013 – 2022 (TWh) (USD Billion)
4.3 Natural Gas-fired Power Generation
4.3.1 Indonesia Natural Gas-fired Power Generation Capacity Estimates
and Forecast, 2013 – 2022 (GW)
4.3.2 Indonesia Natural Gas-fired Power Generation and Revenue
Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)
4.4 Oil-fired Power Generation
4.4.1 Indonesia Oil-fired Power Generation Capacity Estimates and
Forecast, 2013 – 2022 (GW)
4.4.2 Indonesia Oil-fired Power Generation and Revenue Estimates and
Forecast, 2013 – 2022 (TWh) (USD Billion)
4.5 Geothermal Power Generation
4.5.1 Indonesia Geothermal Power Generation Capacity Estimates and
Forecast, 2013 – 2022 (GW)
4.5.2 Indonesia Geothermal Power Generation and Revenue Estimates and
Forecast, 2013 – 2022 (TWh) (USD Billion)
4.6 Hydro Power Generation
4.6.1 Indonesia Hydro Power Generation Capacity Estimates and
Forecast, 2013 – 2022 (GW)
4.6.2 Indonesia Hydro Power Generation and Revenue Estimates and
Forecast, 2013 – 2022 (TWh) (USD Billion)
4.7 Combined Cycle Power Generation
4.7.1 Indonesia Combined Cycle Power Generation Capacity Estimates
and Forecast, 2013 – 2022 (GW)
4.7.2 Indonesia Combined Cycle Power Generation and Revenue Estimates
and Forecast, 2013 – 2022 (TWh) (USD Billion)
Chapter 5 Company Profiles
5.1 Alstom
5.1.1 Company Overview
5.1.2 Financial Overview
5.1.3 Business Strategy
5.1.4 Technical Performance Analysis
5.1.5 Operational Standards
5.1.6 Awards and Achievements
5.2 Asia Resource Minerals plc
5.2.1 Company Overview
5.2.2 Financial Overview
5.2.3 Business Strategy
5.2.4 Technical Performance Analysis
5.2.5 Operational Standards
5.2.6 Awards and Achievements
5.3 Chevron Indonesia
5.3.1 Company Overview
5.3.2 Financial Overview
5.3.3 Business Strategy
5.3.4 Technical Performance Analysis
5.3.5 Awards and Achievements
5.4 Hyundai Engineering Co. Ltd.
5.4.1 Company Overview
5.4.2 Financial Overview
5.4.3 Business Strategy
5.4.4 Technical Performance Analysis
5.4.5 Operational Standards
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