Indonesia Power Generation Market: Snapshot
The growing population and a subsequent increasing demand for energy are by far the leading factors propelling the Indonesia power generation market. The power generation in Indonesia stood at 236 TWh in 2015 and is poised to reach 442.5 TWh by 2022, rising at a CAGR of 9.1% from 2014 to 2022. Indonesia-based mining companies are playing an instrumental role in developing the coal-fired power generation sector in the country. Construction of mine-mouth power plants is one of the key strategies being adopted by mining companies in the country. These power plants are expected to provide a distinct competitive advantage to operators owing to the localized nature of fuel supply, thereby working in favor of the overall market. In addition, the rising mining activities coupled with the flourishing quarrying sector are anticipated to support the growth of the market.
Moreover, the government has been compelled to seek different ways to generate power due to depleting oil reserves and burgeoning demand for power generation. Apart from coal, the abundance of natural gas reserves is augmenting the market. However, post-1997 crisis, the cut-down in infrastructure spending has taken its toll on Indonesia’s infrastructure sector. This has led to a detrimental impact on the power plants present in the country, which in turn is limiting the chances of power generation capacity additions. However, increasing inflow of foreign direct investments (FDI) is likely to emerge highly beneficial for power generation sector in the country.
Abundant Availability of Raw Materials to Fuel Growth of Coal-fired and Geothermal Power Generation Technology
Coal-fired power generation will continue to be the dominant power generation technology until 2022, accounting for more than 50% of the overall market capacity. The ever-increasing demand for power along with the rising need to connect population to the electricity grid drives the demand for coal-fired power generation. Moreover, rapid industrialization and growing agriculture-based activities are working in favor of the segment. The advent of novel technologies such as carbon capture and storage (CCS), fuelled by government efforts and support mechanisms for cleaner power generation, is supporting the growth of the segment. Furthermore, the easy availability of raw material due to the presence of a large number of coal mines is driving the Indonesia coal-fired power generation market.
The shares of the oil-fired segment are expected to nosedive during the forecast period, owing to the gradual phasing out of oil-based power generation plants. Due to rising demand for power, depleting oil reserves, and failure to develop new and equivalent resources, Indonesia became dependent on refinery products and crude oil imports since 2004. Since then, the country is emphasizing on the expansion of power generation capacity utilizing other technologies, especially renewable power generation and coal-fired.
Geothermal is emerging as an attractive technology for power generation and its power generation capacity is projected to rise at a 13.7% CAGR from 2014 to 2022. Indonesia has abundant geothermal resources and is home to about 40% of the world’s proven geothermal resources, which is higher than any other country. The government is working towards adding 5.0 GW of new geothermal power generation capacity by 2025. In order to achieve this target, the government has enforced several laws and legislations for promoting the development of this sector.
Some of the prominent companies operating in the Indonesia power generation market are PT Indonesia Power, PT PLN Persero, PT Pertamina Geothermal Energy, PT Pembangkitan Jawa Bali, and PT Jawa Power. Other players profiled in this report include Alstom, PT Geo Dipa Energy, Mitsubishi Heavy Industries Ltd., Chevron Indonesia, Hyundai Engineering Co. Ltd., PT Arutmin Indonesia., PT Wartsila Indonesia, Siemens AG, Asia Resource Minerals plc., and United Coal Indonesia.
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
5.4.6 Awards and Achievements
5.5 Mitsubishi Heavy Industries, Ltd.
5.5.1 Company Overview
5.5.2 Financial Overview
5.5.3 Business Strategy
5.5.4 Technical Performance Analysis
5.5.5 Operational Standards
5.5.6 Awards and Achievements
5.6 PT Adaro Energy Tbk.
5.6.1 Company Overview
5.6.2 Financial Overview
5.6.3 Business Strategy
5.6.4 Technical Performance Analysis
5.6.5 Operational Standards
5.6.6 Awards and Achievements
5.7 PT Arutmin Indonesia
5.7.1 Company Overview
5.7.2 Financial Overview
5.7.3 Business Strategy
5.7.4 Technical Performance Analysis
5.7.5 Operational Standards
5.7.6 Awards and Achievements
5.8 PT Bumi Resources Tbk.
5.8.1 Company Overview
5.8.2 Financial Overview
5.8.3 Business Strategy
5.8.4 Technical Performance Analysis
5.8.5 Operational Standards
5.8.6 Awards and Achievements
5.9 PT Geo Dipa Energi
5.9.1 Company Overview
5.9.2 Financial Overview
5.9.3 Business Strategy
5.9.4 Technical Performance
5.9.5 Operational Standards
5.9.6 Awards and Achievements
5.10 PT Indonesia Power
5.10.1 Company Overview
5.10.2 Financial Overview
5.10.3 Business Strategy
5.10.4 Technical Performance
5.10.5 Operational Standards
5.10.6 Awards and Achievements
5.11 PT Jawa Power
5.11.1 Company Overview
5.11.2 Financial Overview
5.11.3 Business Strategy
5.11.4 Technical Specifications
5.11.5 Operational Standards
5.11.6 Awards and Achievements
5.12 Pt Medco Power Indonesia
5.12.1 Company Overview
5.12.2 Financial Overview
5.12.3 Business Strategy
5.12.4 Technical Performance Analysis
5.12.5 Operational Standards
5.12.6 Awards and Achievements
5.13 PT Pembangkitan Jawa-Bali
5.13.1 Company Overview
5.13.2 Financial Overview
5.13.3 Business Strategy
5.13.4 Technical Specification
5.13.5 Operational Standards
5.13.6 Awards and Achievements
5.14 PT Pertamina Geothermal Energy
5.14.1 Company Overview
5.14.2 Financial Overview
5.14.3 Business Strategy
5.14.4 Technical Performance Analysis
5.14.5 Operational Standards
5.14.6 Awards and Achievements
5.15 PT PLN (Persero)
5.15.1 Company Overview
5.15.2 Financial Overview
5.15.3 Business Strategy
5.15.4 Technical Performance Analysis
5.15.5 Operational Standards
5.15.6 Awards and Achievements
5.16 PT United Coal Indonesia
5.16.1 Company Overview
5.16.2 Financial Overview
5.16.3 Business Strategy
5.16.4 Technical Performance Analysis
5.16.5 Operational Standards
5.16.6 Awards and Achievements
5.17 PT Wartsila Indonesia
5.17.1 Company Overview
5.17.2 Financial Overview
5.17.3 Business Strategy
5.17.4 Technical Performance Analysis
5.17.5 Operational Standards
5.17.6 Awards and Achievements
5.18 PT. Cirebon Electric Power
5.18.1 Company Overview
5.18.2 Financial Overview
5.18.3 Business Strategy
5.18.4 Technical Performance Analysis
5.18.5 Operational Standards
5.18.6 Awards and Achievements
5.19 PT. Harum Energy Tbk.
5.19.1 Company Overview
5.19.2 Financial Overview
5.19.3 Business Strategy
5.19.4 Technical Performance Analysis
5.19.5 Operational Standards
5.19.6 Awards and Achievements
5.20 Siemens AG
5.20.1 Company Overview
5.20.2 Financial Overview
5.20.3 Business Strategy
5.20.4 Technical Performance Analysis
5.20.5 Operational Standards
5.20.6 Awards and Achievements
List of Tables
TABLE 1 Indonesia Power Generation Market: Snapshot
TABLE 2 Market Drivers of Indonesia Power Generation Market: Impact Analysis
TABLE 3 Market Restraints of Indonesia Power Generation Market: Impact Analysis
TABLE 4 Market Opportunity of Indonesia Power Generation Market: Impact Analysis
TABLE 5 Alstom: Technical Performance Analysis for Major Plants
TABLE 6 Alstom: Awards and Achievements
TABLE 7 Hyundai Engineering Co., Ltd.: Technical Performance Analysis for Major Plants
TABLE 8 Mitsubishi Heavy Industries, Ltd.: Technical Performance Analysis for Major Projects
TABLE 9 Mitsubishi Heavy Industries, Ltd.: Awards and Achievements
TABLE 10 PT Adaro Energy Tbk.: Technical Performance Analysis for Major Plants
TABLE 11 PT Adaro Energy Tbk.: Awards and Achievements
TABLE 12 PT Arutmin Indonesia: Technical Performance Analysis, by Terminals
TABLE 13 PT Arutmin Indonesia: Technical Performance Analysis, by Coal Mines
TABLE 14 PT Arutmin Indonesia: Awards and Achievements
TABLE 15 PT Bumi Resources Tbk.: Technical Performance Analysis for Major Projects
TABLE 16 PT Bumi Resources Tbk.: Awards and Achievements
TABLE 17 PT Indonesia Power : Operational Standards
TABLE 18 PT Indonesia Power : Awards and Achievements
TABLE 19 PT Jawa Power: Awards and Achievemnets
TABLE 20 PT Medco Power Indonesia: Technical Performance Analysis for Major Plants
TABLE 21 PT Medco Power Indonesia: Awards and Achievements
TABLE 22 PT Pembangkitan Jawa-Bali: Operational Standards, by C ertificate Type
TABLE 23 PT Pertamina Geothermal Energy: Operational Standards, by Certificate Type
TABLE 24 PT Pertamina Geothermal Energy: Awards and Achievements
TABLE 25 PT PLN (Persero): Technical Performance Analysis
TABLE 26 PT PLN (Persero): Awards and Achievements
TABLE 27 PT United Coal Indonesia: Technical Performance Analysis
TABLE 28 PT Wartsila Indonesia : Operational Standards
TABLE 29 PT Adaro Energy Tbk.: Awards and Achievements
TABLE 30 PT. Harum Energy Tbk.: Technical Performance Analysis for Coal Mining Operations
TABLE 31 PT. Harum Energy Tbk.: Awards and Achievements
TABLE 32 Siemens AG: Technical Performance Analysis
List of Figures
FIG. 1 Indonesia Power Generation Market: Market Segmentation
FIG. 2 Indonesia Power Generation Capacity Estimates and Forecast, 2013 – 2022 (GW)
FIG. 3 Indonesia Power Generation and Revenue Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)
FIG. 4 Coal-fired Power Generation Market: Value Chain Analysis
FIG. 5 Natural Gas-fired Power Generation Market: Value Chain Analysis
FIG. 6 Oil-fired Power Generation Market: Value Chain Analysis
FIG. 7 Geothermal Power Generation Market: Value Chain Analysis
FIG. 8 Hydro Power Generation Market: Value Chain Analysis
FIG. 9 Combined Cycle Power Generation Market: Value Chain Analysis
FIG. 10 Indonesia: Coal Production and Consumption, 2006 – 2013 (Million Tons of Oil Equivalent, MTOE)
FIG. 11 Indonesia: Foreign Direct Investments, 2011 – 2013
FIG. 12 Indonesia: Foreign Direct Investments, 2006 – 2013
FIG. 13 Indonesia Power Generation Market: Porter’s Five Forces Analysis
FIG. 14 Market Attractiveness Analysis of Indonesia Power Generation Market, by Technology, 2013
FIG. 15 Company Market Share of Indonesia Power Generation Market, 2013 (%)
FIG. 16 PT PLN Corporate Structure and its Subsidiaries
FIG. 17 Indonesia Power Generation Capacity Estimates and Forecast, by Technology, 2013 & 2022 (GW)
FIG. 18 Indonesia Coal-fired Power Generation Capacity Estimates and Forecast, 2013 – 2022 (GW)
FIG. 19 Indonesia: Coal Production and Exports, 2007 – 2013 (Million Tons)
FIG. 20 Indonesia Coal-fired Power Generation and Revenue Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)
FIG. 21 Indonesia Natural Gas-fired Power Generation Capacity Estimates and Forecast, 2013 – 2022 (GW)
FIG. 22 Indonesia Natural Gas-fired Power Generation and Revenue Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)
FIG. 23 Indonesia Oil-fired Power Generation Capacity Estimates and Forecast, 2013 – 2022 (GW)
FIG. 24 Indonesia Oil-fired Power Generation and Revenue Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)
FIG. 25 Indonesia Geothermal Power Generation Capacity Estimates and Forecast, 2013 – 2022 (GW)
FIG. 26 Indonesia Geothermal Power Generation and Revenue Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)
FIG. 27 Indonesia Hydro Power Generation Capacity Estimates and Forecast, 2013 – 2022 (GW)
FIG. 28 Indonesia Hydro Power Generation and Revenue Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)
FIG. 29 Indonesia Combined Cycle Power Generation Capacity Estimates and Forecast, 2013 – 2022 (GW)
FIG. 30 Indonesia Combined Cycle Power Generation and Revenue Estimates and Forecast, 2013 – 2022 (TWh) (USD Billion)