Relevant bibliographies by topics / Energy policy – Indonesia

Academic literature on the topic 'Energy policy – Indonesia'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 February 2022

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Journal articles on the topic "Energy policy – Indonesia"

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Wibowo, Tri, and Purwoko Purwoko. "Fiscal Policy to Support the Development of Seaweed as Renewable Energy in Indonesia." Journal of Clean Energy Technologies 8, no. 1 (January 2020): 1–4. http://dx.doi.org/10.18178/jocet.2020.8.1.516.

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Novianto, Ferdy, Sumartono Sumartono, Irwan Noor, and Lely Indah Mindarti. "Renewable energy policy scenarios as implementation moderation of fuel subsidy policy in Indonesia." foresight 20, no. 5 (September 10, 2018): 527–53. http://dx.doi.org/10.1108/fs-05-2018-0054.

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Purpose This paper aims to examine the effect of communication, resources, disposition and bureaucratic structure to the success of energy subsidy policy, to examine the effect of moderation of variable scenario of renewable energy policy on the influence of communication, resources, disposition and bureaucracy structure on the success of energy subsidy policy. Design/methodology/approach This study was purposively (based on specific objectives) conducted in Jakarta, which is associated with the implementation and subsidy policy scenario, the study focused on the center of government, namely, the capital city, Jakarta. Collection of data in this research survey was conducted in June-August 2017. The sampling technique was proportional stratified random sampling that took up most of the 770 members of Masyarakat Peduli Energi dan Lingkungan and Masyarakat Energi Terbarukan Indonesia using a representative sample of results that have the ability to be generalized. Based on the formula Slovin (Solimun and Fernandes, 2017), a sample of 145 respondents was obtained. The research approach used was a quantitative with the analysis tool called the generalized structure component analysis. Findings This paper exhibited that all relationships between variables have a p-value of 0.05 except the third moderation and fourth moderation relationship. So it can be said that all relationships between variables are significant except the relationship between the variables of moderation to the relationship between the disposition variable (X3) on the successful implementation of subsidy policy (Y) and the relationship between the moderation variable to the relationship between bureaucracy structure variable (X4) to the successful implementation of subsidy policy. Originality/value The originality of the research refers to the following: The Policy Theory described by Edwards III (1980), and reinforced by the findings of Ratminto and Winarsih (2005), and Bloom et al. (2009), that communication, resources, dispositions and bureaucratic structures affect the success of the energy subsidy policy. This becomes the formulation of a hypothesized research problem whether communication, resources, disposition and bureaucratic structure affect the success of the energy subsidy policy. In fact, the conditions in Indonesia are quite different from the Western world, and the system in Indonesia has embraced subsidies. Therefore, this study also examines the moderating effects of renewable energy policy scenarios in the relationship between communication, resources, dispositions and bureaucratic structures on the success of the subsidy policy energy. Given that there is no strong theory that examines the effects of moderation of these four factors on the success of the energy subsidy policy. Therefore, as the development of Edward III Theory, this study examines the proposition of whether renewable energy policy scenarios reinforce or weaken (moderation effects) on the effects of communication, resources, dispositions and bureaucratic structures on the success of energy subsidy policies.
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Akbar, Iqbal, Dhandy Arisaktiwardhana, and Prima Naomi. "How Does Indonesian Scientific Production on Renewable Energy Successfully Support the Policy Design? A Journey Towards Sustainable Energy Transition." Problemy Ekorozwoju 15, no. 2 (July 1, 2020): 41–52. http://dx.doi.org/10.35784/pe.2020.2.05.

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The aim to achieve the target of a 23% share of sustainable energies in the total Indonesia’s primary energy supply requires enormous amounts of works. Indonesia’s scientific knowledge production can support a successful transition to renewables. However, policy makers struggle to determine how the transition benefits from the scientific production on renewable. A bibliometric study using scientific publication data from the Web of Science (WoS) is used to probe how Indonesian scientific knowledge production can support the policy design for transition to sustainable energy. The seven focused disciplines are geothermal, solar, wind, hydro, bio, hybrid, and energy policy and economics. Based on the data from the above-listed disciplines, a deeper analysis is conducted, and implications to the policy design are constructed. The study reveals that bio energy is the focus of the research topics produced in Indonesia, followed by solar and hydro energy. Most RE research is related to the applied sciences. The innovation capability in the form of technology modifiers and technology adapters supports the transition to sustainable energy in Indonesia. The research on bio energy, however, is characterized by higher basic knowledge than research on solar and hydro energy. This suggests low barriers to the access to the resources and to the completion of bio research in Indonesia. Designing Indonesian energy policy by comprising discriminatively specific sustainable energy sources in the main policy instruments can therefore accelerate the sustainable transition and development.
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Nugroho, Fathul, and Noor Syaifudin. "Macroeconomic Energy Efficiency Portfolio Model of Indonesia." Hasanuddin Economics and Business Review 1, no. 1 (August 22, 2017): 5. http://dx.doi.org/10.26487/hebr.v1i1.1161.

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There has been a decreasing trend in Indonesia’s energy efficiency. Indonesia’s energy efficiency decreased at the annual rate of 1.4 % over the last 27 years from $ 246.23 per million Btus in 1980 to $ 165.51 per million Btus in 2007. In the absence of initiatives by the government as well as the citizens to improve energy efficiency, Indonesia’s energy efficiency will decline gradually in the next 25 years by around 45.51 %. This study attempts to address this policy problem by providing policy recommendations based on in-depth analysis and evaluation of the policy alternatives.
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Siswandi, Gusman. "MARINE RENEWABLE ENERGY, THE LAW OF THE SEA AND THE MARINE ENVIRONMENT: AN INDONESIAN PERSPECTIVE." Padjadjaran Journal of International Law 1, no. 1 (January 12, 2017): 36–50. http://dx.doi.org/10.23920/pjil.v1i1.274.

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ABSTRACTAccording to the report of the Secretary-General of the United Nations, there are at least three benefits of marine renewable energy. From an environmental perspective, the utilization of marine renewable energy could reduce dependency upon conventional energy sources, especially the non-renewable ones. From an economic perspective, the renewable energy projects have developed significantly both in developed and developing countries. It was estimated that global investments in the renewable energy sector increased by 32% in 2010, reaching the total figure of $2.11 billion. Although there have not been any statistics available for marine renewable energy, this figure could provide an indication for the prospects of marine renewable energy in the future. This article aims to identify and to analyze legal aspects related to the utilization of marine renewable energy in Indonesia, particularly in the contexts of the law of the sea and the marine environment. Since marine renewable energy in Indonesia is still developing, it is necessary to ensure that all activities pertaining to the utilization of marine renewable energy resources are conducted in accordance with prevailing laws and regulations. In this regard, the 1982 United Nations Convention on the Law of the Sea (UNCLOS) is one of the main legal instruments that need to be considered by coastal States in utilizing marine renewable energy. This study finds that the current laws and policy in Indonesia are still inadequate to regulate the development of marine renewable energy. The National Energy Policy only provides a broad and general policy on renewable energy sources and does not cover a particular strategy on marine renewable energy. Thus, the Indonesian Government needs to establish a specific policy on marine renewable energy as well as specific laws and regulations to address the environmental impacts that may result from marine renewable energy activities. Keywords: marine renewable energy, law of the sea, marine energy, indonesian perspective. ABSTRAKBerdasarkan laporan dari Sekjen PBB, sekurang-kurangnya terdapat tiga keuntungan dari energi laut terbarukan. Dari perspektif lingkungan, pemanfaatan energi laut terbarukan dapat mengurangi ketergantungan terhadap energi konvensional, khususnya yang tidak terbarukan. Dari perspektif ekonomi, proyek energi terbarukan telah berkembang cukup signifikan, baik di negara berkembang maupun negara maju. Secara global, diperkirakan telah terdapat kenaikan investasi sebesar 32% di tahun 2010, hingga mencapai 2.11 miliar US Dolar. Meskipun belum ada statistik yang pasti, akan tetapiangka tersebut sudah menggambarkan prospek perkembangan energi terbarukan di masa yang akan datang. Artikel ini bertujuan untuk menganailisa aspek hukum yang berkaitan dengan pemanfaatan energi laut terbarukan di Indonesia, khususnya dalam konteks hukum laut dan lingkungan laut. Sejak energi laut terbarukan berkembang di Indonesia berkembang, sangatlah diperlukan agar pengeturan kegiatan tersebut sesuai dengan peraturan perundang-undangan. Berkenaan dengan ini, Konvensi Hukum Laut 1982 adalah salah satu dari intrumen hukum yang harus diperhatikan oleh negara pantai dalam menjalankan kegiatan pemanfaatan energi laut terbarukan. Kebijakan Energi Nasional hanya menyediakan kebijakan nasional yang sifatnya umum dalam pemanfaatan energi laut terbarukan. Dengan demikian Indonesia perlu membentuk kebijakan yang lebih spesifik berkenaan dengan pemanfaatan energi laut terbarukan, khususnya dampak lingkungan terhadap pemanfaatan energi laut terbarukan. Kata kunci: energi laut terbarukan, hukum laut, energi laut, sudut pandang indonesia
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Pristiandaru, Danur Lambang, and Nugroho Agung Pambudi. "Wind Energy in Indonesia." Indonesian Journal of Energy 2, no. 2 (August 30, 2019): 65–73. http://dx.doi.org/10.33116/ije.v2i2.37.

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Like many countries, an increase in population and economic growth has made Indonesia’s energy demands significantly raise. By 2050, Indonesia hopes to have 31% of its energy supply met by tapping on renewable energy, like the wind which can yield up to 16.7% of the power. However, the development of wind energy in Indonesia is still low. One underlying reason is the average speed of wind in Indonesia quite low, making it very difficult to produce energy on a large scale. Many of Indonesia’s current wind energy systems installed in remote locations, often as part of a development or research project in stand-alone or hybrid systems. These partly caused by a lack of confidence in wind power and not being sure of where could be the best locations for wind plants. This paper studies the status of wind energy in Indonesia, the challenges that it faces and future policies.Keywords: wind energy, Indonesia, potential, future policy
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Hadi, Sudharto Prawata, Bulan Prabawani, and Hartuti Purnaweni. "Environmental and social issues on energy policy in indonesia." E3S Web of Conferences 73 (2018): 02002. http://dx.doi.org/10.1051/e3sconf/20187302002.

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One crucial problem faced by Indonesia is the dependence on fossil energy reaching to 93,3%, while the share of renewable energy is only 7,7%. This causes two implications. Firstly, Indonesia is at the situation of insecurity energy due to the limitation of the availability of fossil energy. Since 2004, Indonesia is net importer oil country. Secondly, the use of fossil energy creates CO2, a component of green house gases stimulating global warming and climate change. One strategy to deal with this problem is by implementing new energy system consisting of developing renewable energy and energy efficiency. This paper observes the impact of the use of fossil energy, the measures taken to deal with these problems and the issues of implementing the measures. This research relies on secondary data available at the Ministry of Energy and Mineral Resource, Ministry of Environment and Forestry specifically at by Proper Secretariat, and other relevant sources.
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Mulyana, Imam, and Achmad Gusman Siswandi. "INDONESIA’S REGULATION AND POLICY IN THE ENERGY SECTOR: URGENCY TO PROMOTE ENERGY EFFICIENCY IN URBAN AREAS." Yustisia Jurnal Hukum 7, no. 2 (September 16, 2018): 211. http://dx.doi.org/10.20961/yustisia.v7i2.18732.

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<p>In recent years, efforts to promote sustainable energy through energy efficiency, renewable energy and use of new technologies are moving rapidly at national, regional, and international levels. The benefits generated from energy efficiency has prompted experts and governments to work together in implementing energy efficiency policies across all sectors of life. One of the focus areas in global energy efficiency policy is energy efficiency in urban areas. This article aims to provide an overview regarding the implementation of policy and regulation on energy efficiency in Indonesia, particularly in urban areas. The research finds that energy efficiency is one of the most effective ways to improve the competitiveness and capacity of cities in Indonesia. In addition, it could advocate the Indonesian Government in responding to global environmental issues, especially climate change.</p><br />
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Pinilih, Sekar Anggun Gading, and Wiana Laelaputri Chairunnisa. "New and Renewable Energy Policy in Developing Indonesia's National Energy Resilience." E3S Web of Conferences 125 (2019): 10004. http://dx.doi.org/10.1051/e3sconf/201912510004.

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This study aims to discuss new and renewable energy policies as an effort to build national energy security. Research methods use legal research that searches from various perspectives. The implementation of analysis, using the method of regulatory and focus on energy, generally has many impacts. First, the policy on the use of new and renewable energy aims to prepare the carrying capacity of national energy security. Implementation this policy has not been fully implemented because there are still many obstacles faced. Second, the use of new energy and renewable energy as an effort to build national energy security in Indonesia is still not optimal. Even though Indonesia is blessed with abundant natural and energy resources in all its regions and the need for new and renewable energy as the future fate of energy security in the unitary state of the Republic of Indonesia for people's welfare as a step to reduce the increase in consumption of fossil-based energy.
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Azhar, Muhamad, Solechan Solechan, Retno Saraswati, Putut Suharso, Suhartoyo Suhartoyo, and Budi Ispriyarso. "The New Renewable Energy Consumption Policy of Rare Earth Metals to Build Indonesia's National Energy Security." E3S Web of Conferences 68 (2018): 03008. http://dx.doi.org/10.1051/e3sconf/20186803008.

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This study aims to discuss the policy of using renewable energy in the form of rare metal eart as an effort to build national energy security. The research method used a legal research looking from various perspectives in social science. Law is seen as a space for the process of scientific study in order to seek truth. The use of relevant legal research wants to understand the law more thoroughly. In performing implementation analysis, using the method of Regulatory Impact Assessment (RIA) with focus on energy regulation. The results of the study show that: First, the policy of the Indonesian republic government regarding the use of new energy and renewable energy aims to prepare the carrying capacity of national energy security. This policy has not fully gone well. The policy is not supported by consistency in issuing derivative policies. Second, the use of new energy and renewable energy, especially rare earth metals as part of efforts to encourage national energy security in Indonesia is still very far from expectations. The use of rare eart metal is only around 0.7% of the use of new energy. Efforts to explore and exploit rare earth metals have not been carried out in a timely manner. Whereas the potential of rare earth metals is a strategic community and has the potential to encourage national energy security in Indonesia. Indonesia is projected to produce rare earth metals reaching 20% of the world's supply.
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Dissertations / Theses on the topic "Energy policy – Indonesia"

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Sitompul, Rislima Febriani Economics Australian School of Business UNSW. "Energy-related CO2 emissions in the Indonesian manufacturing sector." Awarded by:University of New South Wales. School of Economics, 2006. http://handle.unsw.edu.au/1959.4/30434.

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This study is aimed at developing policies for energy efficiency by observing the past changes of energy use in Indonesia???s manufacturing sector over the period 1980???2000, and to investigate mitigation options for energy-related CO2 emissions in the sector. The first part of the study uses decomposition analysis to assess the effect of the changes in energy consumption and the level of CO2 emissions, while the second part investigates energy efficiency improvement strategies and the use of economic instruments to mitigate CO2 emissions in the manufacturing sector. Economic activity was the dominant factor in increasing energy consumption over the whole period of analysis, followed by the energy intensity effect and then the structural effect. The increase in aggregate energy intensity over the period 1980-2000 was mainly driven by the energy intensity effect. In turn, the technical effect was the dominant contributor to changes in energy intensity effect, with the fuel-mix effect being of lesser importance. Changes in CO2 emissions were dominated by economic activity and structural change. Sub-sectors that would benefit from fuel switching and energy efficiency improvements are the textile, paper, and non-metal sub-sectors. Three main options for reducing CO2 emissions from the manufacturing sector were considered: the imposition of a carbon tax, energy efficiency initiatives, and other mitigation measures. A carbon tax was found to reduce sectoral emissions from the direct use of oil, gas and coal, but increased the demand for electricity. At the practical level, energy efficiency improvements can be implemented by adopting energy efficient technologies that can reduce aggregate energy intensity up to 37.1 per cent from the base-year level, estimated after imposition of a carbon tax at $30 per tonne of carbon. A major priority for energy efficiency improvements was found to be in the textile and the paper and chemical sub-sectors. A mitigation measure such as the Clean Development Mechanisms could be encouraged in order to reduce projected emission levels. The preferred option would be the adoption of energy efficient technologies in the textile, chemical, paper and non-metal sub-sectors.
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Harahap, Fumi. "An evaluation of biodiesel policies : The case of palm oil agro-industry in Indonesia." Licentiate thesis, KTH, Energi och klimatstudier, ECS, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-222618.

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Oil palm has flourished as an economically vital crop in Indonesia given its use in both food and non-food products (including biodiesel) for domestic and export markets. However, the expansion of oil palm plantations in Indonesia is controversial. While the crop generates fiscal earnings for the country, and regular income streams for farmers and companies, oil palm plantation expansion is claimed to cause deforestation, environmental degradation and biodiversity losses. At the same time, there is a national target to reduce GHG emissions from land use change and the production of palm oil. Climate change mitigation goals also include ambitious targets to blend biodiesel with fossil diesel in various economic sectors. This thesis looks at the palm oil agro-industry, from oil palm plantation to crude palm oil (CPO) production, and CPO based biodiesel production. It proposes a policy evaluation to verify policy implications in relation to the issue of land use allocation, and the poor profitability in palm oil biodiesel production. The overarching objective is to evaluate the effectiveness of prevailing policies used to promote the palm oil agro-industry for biodiesel production in Indonesia. The thesis is framed by policy research and ex-post policy evaluation. The focus is on the process of policy formulation and implementation, rather than outcome evaluation. Two specific analytical frameworks are used to answer the research questions while addressing the criteria of effectiveness in policy evaluation: (i) policy coherence analysis and (ii) life cycle cost analysis. Qualitative indicators are used to measure the coherence of biofuel policy with other sectoral policies (agriculture, climate and forestry) in relation to land allocation. Quantitative economic indicators are used to compare the costs and benefits of conventional palm oil biodiesel production with a biorefinery conceptual plant. There are valuable lessons to be learnt from this policy evaluation. The results indicate areas in which policy effectiveness can be improved. For land allocation, adjustments and improvements in policy formulation and implementation are crucial. Uncertainties when it comes to the allocation of land to meet multi sectoral policy goals are to be addressed by clarifying land use definitions and categories, which should be backed up by consistent land use definitions in various policy documents. The dual land classification presently applied should move towards a single land classification, linking actual landscape coverage and the legal status of the land. Policy information and guidance across sectoral policies should be compiled in a single database. Such a publicly available database would help enhance the efficiency of land allocation for multiple policy purposes. More importantly, the formulation of biodiesel policy has to engage various sectoral policies that compete for the same resources. The biorefinery conceptual plant allows the reduction of government subsidies, while also providing a pathway to enhance the use of renewable energy and reduce GHG emissions. Policies have been designed to enhance plant profits through the improved utilisation of biomass residues in the palm oil mill for energy generation and composting. However, the low implementation rate of policies indicates the need to improve the effectiveness of policy implementation, and therefore the need for better monitoring processes, and possibly more stringent consequences for non-compliance.

QC 20180223

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Muliadiredja, Emy Perdanahari. "Indonesian energy policy pathways : from past trends to future alternatives : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Resource and Environmental Planning at Massey University, Palmerston North." 2005. http://hdl.handle.net/10179/1605.

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The main achievement of this thesis has been the development of an operational system dynamics model of the Indonesian energy system. This model attempts to integrate a wide range of data so that policy-makers can understand the connections between economic, environmental and energy policy objectives. This is the first such model to be developed for Indonesia, building on previous modelling efforts that have been restricted to regression-based forecasting and optimisation modelling. The first part of the thesis provides a systematic analysis of background data, information and the context for the model development. These chapters review the historical and political context of energy developments in Indonesia; review past energy policies as well as emerging energy policy objectives; analyse the determinants of energy demand (by regression and divisia decomposition methods) and review energy supply options. The regression analysis concluded that GDP and household income had the most significant effect on energy demand. The effect of fuel price rises, on the other hand, did not exert a significant effect on energy demand. The divisia decomposition method found that, over the entire Indonesian economy, technical change was found to give a greater contribution to energy efficiency improvements (as measured by the energy:GDP ratio) than structural changes. The system dynamics model was developed and validated using the extensive data collected, refined and analysed in the first part of the thesis. The model consisted of an economic module (17 sector input-output model), energy demand module, electric power module, heat and transport fuel module, primary energy supply module and an environmental module. Five scenarios were developed from this model in order to analyse possible energy development pathways for Indonesia, over the 1998-2020 period. These scenarios reflected five themes Business-as-Usual, Environmentally Beneficial, Economic Efficiency, Self-Sufficiency and Balancing Trade-Offs. These scenarios were assessed using a number of policy evaluation criteria to measure various energy, economic and environmental policy objectives. All of these scenarios indicated that Indonesia's energy demand and hence CO2 emissions will grow significantly over the scenario period, even if Indonesia introduces some quite stringent polices to restrict these trends - eg, CO2 emissions are expected to increase by 189% under the 'Business-as-Usual' scenario; and even though they can be reduced to a 85% increase under the 'Environmentally Beneficial' scenario, this is still a significant and somewhat alarming increase in CO2 emissions. The scenarios also highlighted the trade-offs between different sets of policy objectives as an aid to energy planning and policy-making. Finally, further areas of research that could improve the model and its use were identified: improving the data on energy supply and demand (particularly the end-use characterisation), endogenise the economic growth dynamics into the model rather than depending on regression analysis, possibly converting the input-output structure into a computable general equilibrium model, including more sectoral detail, making the model at least partly spatially-specific, and investigating more participatory approaches for further developing the model so as to enhance its uptake.
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Books on the topic "Energy policy – Indonesia"

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Brooks, David B. Sustainable energy: An initial policy assessment for Indonesia. Halifax: The Project, 1992.

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Prihandana, Rama. Indonesia mandiri energi. Jakarta: Proklamasi Publishing House, 2008.

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Susilo, Y. Sri. Subsidi bahan bakar minyak (BBM) & perekonomian Indonesia. Sleman, Yogyakarta: Gosyen Publishing, 2013.

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Alami, Athiqah Nur, Ganewati Wuryandari, R. R. Emilia Yustiningrum, and Nanto Sriyanto. Foreign Policy and Energy Security Issues in Indonesia. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4421-2.

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Permana, Adhi Dharma. Outlook energi Indonesia, 2012: Pengembangan energi masa depan dalam mendukung pertumbuhan ekonomi dan ketahanan energi nasional = Indonesia energy outlook, 2012 : future energy development for supporting economic growth and national energy security. Edited by Pusat Teknologi Pengembangan Sumberdaya Energi (Indonesia). Jakarta: Pusat Teknologi Pengembangan Sumberdaya Energi, Badan Pengkajian dan Penerapan Teknologi, 2012.

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Arif, Irwandy. Batubara Indonesia. Jakarta: PT Gramedia Pustaka Utama, 2014.

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Rusastra, I. Wayan, and Yuni Sudarwati. Energi terbarukan di Indonesia: Keragaan pengembangan dan perspektif kebijakan. Edited by Indonesia. Dewan Perwakilan Rakyat. Pusat Pengkajian Pengolahan Data dan Informasi. Jakarta: P3DI Setjen DPR Republik Indonesia dan Azza Grafika, 2014.

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Muna, Riefqi. Keamanan energi Indonesia: Perspektif ekonomi politik. Jakarta: Kerjasama Lembaga Ilmu Pengetahuan Indonesia dan Departemen Pendidikan Nasional, 2010.

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Alami, Athiqah Nur. Politik luar negeri Indonesia dan isu keamanan energi. Menteng, Jakarta: LIPI Press, 2014.

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Oxford Institute for Energy Studies., ed. Indonesia, the political economy of energy. Oxford: Oxford University Press for the Oxford Institute of Energy Studies, 1995.

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Book chapters on the topic "Energy policy – Indonesia"

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Mori, Akihisa. "Impact of the China-induced coal boom in Indonesia." In China’s Climate-Energy Policy, 167–97. Abingdon, Oxon ; New York, NY : Routledge, 2019. | Series: Routledge contemporary China series ; 194: Routledge, 2018. http://dx.doi.org/10.4324/9781351037587-10.

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Alami, Athiqah Nur. "Indonesia in the Asia Pacific Energy Market." In Foreign Policy and Energy Security Issues in Indonesia, 77–109. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4421-2_4.

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Alami, Athiqah Nur, and Nanto Sriyanto. "Indonesia’s Foreign Policy and Energy Security Issues: The Missing Link in Indonesia’s Energy Sector." In Foreign Policy and Energy Security Issues in Indonesia, 1–20. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4421-2_1.

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Wuryandari, Ganewati. "Understanding Indonesia’s Foreign Policy on Energy Security Issues." In Foreign Policy and Energy Security Issues in Indonesia, 111–28. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4421-2_5.

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Yustiningrum, R. R. Emilia. "The Dynamics of Policy and Energy Issues in Indonesia." In Foreign Policy and Energy Security Issues in Indonesia, 21–47. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4421-2_2.

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Sriyanto, Nanto. "Players in the Energy Management Sector in Indonesia: Roles and Interests." In Foreign Policy and Energy Security Issues in Indonesia, 49–75. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4421-2_3.

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Alami, Athiqah Nur, Ganewati Wuryandari, R. R. Emilia Yustiningrum, and Nanto Sriyanto. "Conclusion." In Foreign Policy and Energy Security Issues in Indonesia, 129–31. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4421-2_6.

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Susanto Sadirsan, Erwin, Hermanto Siregar, Eriyatno, and Evita H. Legowo. "Development Model of Renewable Energy Policy for Sustainable Bio-Pellet Industry in Indonesia Using Interpretive Structural Method." In Renewable Energy in the Service of Mankind Vol I, 3–15. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-17777-9_1.

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Atmoko, Darmawan D., Connie Susilawati, and Ashantha Goonetilleke. "Improving Sustainability of Indonesian Public Building: Challenges and Policy Strategy." In Sustainability in Energy and Buildings 2018, 268–76. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-04293-6_27.

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Hadiwinata, Bob Sugeng. "Energy Conservation Policy Development in Indonesia." In World Scientific Series on Environmental and Energy Economics and Policy, 161–78. WORLD SCIENTIFIC, 2010. http://dx.doi.org/10.1142/9789812771780_0006.

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Conference papers on the topic "Energy policy – Indonesia"

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Fitrianingrum, Lia, and Taufik Hidayat. "Analysis of Energy Policy in Indonesia (Intermestic Model Approach)." In 2020 International Conference on Sustainable Energy Engineering and Application (ICSEEA). IEEE, 2020. http://dx.doi.org/10.1109/icseea50711.2020.9306188.

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Amheka, Adrianus, Julius Tanesab, Philipp Thies, and Kathleen Aviso. "Evaluation Of Indonesia's National Energy Policy: A Regional Dilemma In Indonesia Through Simulation Approach." In Proceedings of the 1st International Conference on Engineering, Science, and Commerce, ICESC 2019, 18-19 October 2019, Labuan Bajo, Nusa Tenggara Timur, Indonesia. EAI, 2019. http://dx.doi.org/10.4108/eai.18-10-2019.2289854.

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Tofani, Kemas M., P. A. A. Pramana, B. B. S. D. A. Harsono, Dhandis R. Jintaka, and K. G. H Mangunnkusumo. "SCADA Systems Design to Optimize and Automate Microgrids Systems in Indonesia." In 2020 International Conference on Technology and Policy in Energy and Electric Power (ICT-PEP). IEEE, 2020. http://dx.doi.org/10.1109/ict-pep50916.2020.9249833.

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Luthfia, Agusniar Rizkia, Albertus Sentot Sudarwanto, and Eka Nada Shofa Alkhajar. "The dynamic of the incineration waste-to-energy power plant policy in Indonesia." In THE 5TH INTERNATIONAL CONFERENCE ON INDUSTRIAL, MECHANICAL, ELECTRICAL, AND CHEMICAL ENGINEERING 2019 (ICIMECE 2019). AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0000592.

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Aryata, I. Made, Pradita Yusi Akshinta, and Indratno Pardiansyah. "Energy Investment through Peer to Peer Lending Methods in Rooftop Solar PV in Indonesia." In 2020 International Conference on Technology and Policy in Energy and Electric Power (ICT-PEP). IEEE, 2020. http://dx.doi.org/10.1109/ict-pep50916.2020.9249798.

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Paryanto, P., Harry Indrawan, Nur Cahyo, Arion Simaremare, and Siti Aisyah. "Challenges toward Industry 4.0: A Case Study of Power Plants in Indonesia." In 2020 International Conference on Technology and Policy in Energy and Electric Power (ICT-PEP). IEEE, 2020. http://dx.doi.org/10.1109/ict-pep50916.2020.9249918.

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Indriyani, Indriyani, Henni Kusumastuti, and Nur aeni. "Analysis of Energy Efficiency Policy on the Heat Transfers Process." In The First International Conference On Islamic Development Studies 2019, ICIDS 2019, 10 September 2019, Bandar Lampung, Indonesia. EAI, 2019. http://dx.doi.org/10.4108/eai.10-9-2019.2289388.

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Hadiyantina, Shinta, and Nandaru Ramadhan. "The Emergency of Authority on the Supervision of Old Wells Mining Policy in Indonesia." In 2018 International Conference on Energy and Mining Law (ICEML 2018). Paris, France: Atlantis Press, 2018. http://dx.doi.org/10.2991/iceml-18.2018.69.

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Mulyono, Andreas Tedy. "The Sustainability of Fossil Energy Development in Indonesia: Heading to Awry and Backfires Policy?" In 3rd International Conference on Law and Governance (ICLAVE 2019). Paris, France: Atlantis Press, 2020. http://dx.doi.org/10.2991/aebmr.k.200321.018.

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Manik, Yosef. "Evaluating scenarios in coupling growth and resource use for palm oil biodiesel policy in Indonesia." In 2017 International Conference on Green Energy and Applications (ICGEA). IEEE, 2017. http://dx.doi.org/10.1109/icgea.2017.7925470.

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Reports on the topic "Energy policy – Indonesia"

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Seah, Siew Hua. Can Indonesia�s policy of reconfiguring its energy mix by increasing natural gas usage support its initiatives to reform subsidies? Oxford Institute for Energy Studies, November 2014. http://dx.doi.org/10.26889/9781784670160.

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