Pidie Jaya District Government's Capacity for Multi-Hazard Disaster Risk Reduction to SupportNational Security] Pidie Jaya Regency is one of the areas in Aceh Province with geographical conditions that mostly consist of coastal areas and active fire mountains which make Pidie Jaya regency have a high risk of experiencing various kinds of disasters (multi-hazard) such as earthquakes, volcanic eruptions, tsunamis, and flood. This condition requires the Government of Pidie Jaya Regency to increase its capacity in disaster risk reduction (DRR) activities, so that it can reduce losses and casualties due to disasters. The DRR focuses on reducing vulnerabilities and increasing the capacity of the community which is in line with the direction of Sendai Framework. This study aims to analyze the capacity of the Government of Pidie Jaya in facing multi-hazard using Sendai Framework as a reference assistance. The subjects in this study were Pidie Jaya Regency Government Agencies. The method used in this study is descriptive qualitative with data from interviews and literature studies. The results of the research triangulation showed that the capacity of the Government of Pidie Jaya Regency received a total value of 12 of the maximum value of 16. The DRR capacity of the Pidie Jaya Regency Government was classified as "good". If the Pidie Jaya Regency Government is able to manage disaster risk properly, it will cause comfort and safe in the community which is one of national security indicator.
RSG-GAS has a fairly large thermal power of 30 megawatts, besides being useful for health, industry, research, it also has a potential radioactive releases nearby to the Serpong Nuclear Area about a 5 km radius. The existence of the RSG-GAS in the administrative area of South Tangerang City based on the 2019 Disaster Risk Index has a high risk class for earthquakes and extreme weather, as well as population growth that continues to increase within a radius of 1 km from RSG-GAS, resulting in external hazards from outside the RSG-GAS becoming a threat. in the operation of the RSG-GAS. To be able to reduce potential risk, structural and nonstructural mitigation efforts are needed. This study aims to analyze structural and nonstructural mitigation in the RSG-GAS. The research method used was qualitative with exploratory descriptive research design. The results of the study indicate that structural mitigation has begun to be carried out on the evaluation of site characteristics from the determination of prospective sites to the operation stage for internal and external hazards, the evaluation results are taken into consideration in the design of the RSG-GAS. The RSG-GAS design is capable of both internal and external hazards. Early detection systems can reduce the risk of disaster due to failure of nuclear technology. Nuclear emergency training has been carried out and it is necessary to coordinate the preparation of nuclear preparedness programs at the provincial and national levels. In conclusion, a chain of mitigation efforts has been executed in RSG-GAS in relation to the 2020-2024 National Plan on Disaster Management in order to support the national security.
Lesson Learned from the Fukushima Daiichi Nuclear Reactor Accident to Increase RSG-GAS Mitigation] Indonesia with a geographic area that is relatively the same as Japan and is strongly influenced by the movement of tectonic plate causing Indonesia to be prone of tectonic earthquakes, especially Serpong City of South Tangerang, the location of the Reaktor Serba Guna -G.A. Siwalessy (RSG-GAS) was recorded in a Catalog of Significant and Destructive Earthquake in year 1821-2018, as a risky area of the earthquake. Based on this fact, this study identified and analyzed mitigation efforts carried out to reduce the risk of disaster threats due to technology failure in RSG-GAS. The research method used was qualitatively with descriptive exploratory research design, explores new phenomena and describes according to direct observation of primary data obtained through interviews with resource persons, and secondary data through document studies belonging to resource persons and literature studies. Data validation was carried out with triangulation techniques by conducting data investigations from various sources in the analysis in accordance with the research framework. Mitigation actions have been carried out before the design was arranged, precisely on the determination of prospective reactor site until the current stage of reactor operation. Reactor site evaluation is carried out on aspects of external events (earthquake, geotechnics, meteorology, hydrology, human induce, and dispersion of radioactive substances). The updating of reactor site evaluation form external events is a consideration in RSG-GAS design mitigation, including the simulation the station blackout that has been carried out in the RSG-GAS, to find out the capacity and vulnerability of the RSG-GAS against external hazards that occurred such as in Fukushima Daiichi. External hazards such as earthquake and other hazards has also been promulgated in Indonesian Regulation of Nuclear Reactor Design. To strengthen the capacity of the government and stakeholders it is necessary to revise the Government Regulation to regulate its responsibilities and authority in nuclear emergencies to ensure the safety of the community to create national security. .
The application of nuclear power plants in the world is increasing and has the potential for accidents, including nuclear weapons tests from outside the Nuclear Non-Proliferation Treaty, thus allowing radioactive releases to fall into Indonesian territory, which is a potential threat. Indonesia also utilizes nuclear power in many fields, thus also potentially becoming a national threat. To prevent the threat of radiation potential requires a nuclear disaster Early Warning System (EWS) that can be accessed by the community. This research analysed the EWS that Indonesia needed, using qualitative methods by describing the results of research obtained from interviews and secondary data. Results and research discussions starting from observation and monitoring of radiation exposure, warning services, information dissemination, and supported by countermeasures for the effectiveness of the EWS. The results showed that the development of an integrated nuclear disaster EWS that is easily accessible to the community quickly and continuously under the development of an emergency is a strategy as a decision to reduce the risk of nuclear disaster. The development of the strategy requires a legal basis that regulates coordination between ministries/institutions, from planning to information dissemination to ensure the safety of the public and Indonesian people's security.
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