Muzakir Zainal scite author profile

Magnetotellurics (MT) is an important geophysical method for exploring geothermal systems, with the Earth resistivity obtained from the MT method proving to be useful for the hydrothermal imaging changes of the system. In this research, we applied the MT method to map the geothermal system of the Seulawah Agam volcano in northern Sumatra, a site intended for the construction of a geothermal power plant with an estimated energy of 230 Mwe. Herein, 3D MT measurements were carried out, covering the entire area of the volcano and the various intersecting local faults from the Seulimeum segment in the NW–SE direction. Based on Occam 2D inversion, a conductive anomaly (<10 ohm·m) near the surface was identified in response to specific manifestation areas, including the Heutsz crater on the northern side and the Cempaga crater on the southern side. A further conductive anomaly was also found at a depth of 1 km, which was presumably due to a clay cap layer covering the fluid in the reservoir layer below the surface, where the manifestation areas are formed at various locations (where faults and fractures are found) owing to the fluid in the reservoir rising to the surface. The MT modeling also revealed that the reservoir layer in Seulawah Agam lies at a depth of 2 km with a higher resistivity of 40–150 ohm·m, which is the main target of geothermal energy exploration. At the same time, the heat source zone where magma is located was estimated to lie in two locations, namely, on the northern side centering on the Heutsz crater area and the southern side in the Cempaga crater area. A clear 3D structure obtained via Occam inversion was also used to visualize the hydrothermal flow in the Seulawah Agam volcano that originates from two heat source zones, where one structure that was consistent across all models is the conductive zone that reaches a depth of 5 km in the south in response to the regional faulting of the Seulimeum segment. Based on the MT research, we concluded that the volcano has the geothermal potential to be tapped into power plant energy in the future.

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Integration of borehole and vertical electrical sounding data to characterise the sedimentation process and groundwater in Krueng Aceh basin, Indonesia

Rusydy

Ikhlas²,

Setiawan

et al. 2020

Groundwater for Sustainable Development

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Pengurangan Resiko Bencana Berbasis Komunitas Melalui Pembentukan Desa Tangguh Bencana di Kabupaten Pidie Jaya Nanggroe Aceh Darussalam

et al. 2020

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Aceh province is traversed by the Sumatran fault which stretches for 1900 km from the southern tip of Sumatra Island to the Andaman Sea. Seismic activity along this active fault line poses a serious threat to Aceh including in Pidie Jaya Regency. This community assistanc formulated a program called Desa Tangguh Bencana (DESTANA) to optimize the active role of the community by evaluating Participatory Rural Appraisal (PRA). The target was rural communities with diverse educational and economic backgrounds. The activity was carried out by: providing information on disaster awareness, providing assistance to village governments to formulate village regulations based on disaster risk agreements, and map making and installation of information boards for evacuation routes and path planning by considering local values in the village. The program resulted in the formation of a disaster risk team and a community group who were alert to ongoing disasters, as well as an increase the community’s knowledge.

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Continuity of Great Sumatran Fault in the Marine Area Revealed by 3d Inversion of Gravity Data

et al. 2020

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The Great Sumatran Fault (GSF) is a 1900-km-long fault extending from Lampung, Indonesia, to India's Andaman Islands. The fault location is not only on the land but also in the marine area. Previous studies were only focused on the land area of Sumatra and Andaman Islands even though the marine fault has also impacted earthquakes and tsunamis such as in 2004. As an effort to disaster risk mitigation, this study used the gravity method to map and study the continuity of the GSF in the marine area from the Aceh Province, Indonesia, to the Andaman Islands, India. The gravity data were obtained from Topex with a resolution of 1.85 km/px. Based on the Bouguer data, the subduction zone in the western part of the Indian Ocean is observed with the anomaly of 500–700 mGal, while the residual structure of GSF, relative to the subduction zone, only comes to clarity through a horizontal derivative transformation with anomaly 130-250 mGal. To delineate the fault's geometry, the data were inverted by GRABLOX 1.6 using Singular Value Decomposition and Occam methods. The 3D modeling results also clearly show the contrast density between regional faults such as subduction zones on the Westside of the West Andaman Fault (WAF). The GSF faults can also be well demonstrated at 50 km depth. Based on these results, the gravity Topex is potentially used as a preliminary study of the GSF activity in the marine area.

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Delineation of Buried Paleochannel Using EM Induction in Eastern Banda Aceh, Indonesia

Yanis

Zainal

Marwan

et al. 2019

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Muzakir Zainal

Mapping of Fault and Hydrothermal System beneath the Seulawah Volcano Inferred from a Magnetotellurics Structure

Integration of borehole and vertical electrical sounding data to characterise the sedimentation process and groundwater in Krueng Aceh basin, Indonesia

Pengurangan Resiko Bencana Berbasis Komunitas Melalui Pembentukan Desa Tangguh Bencana di Kabupaten Pidie Jaya Nanggroe Aceh Darussalam

Continuity of Great Sumatran Fault in the Marine Area Revealed by 3d Inversion of Gravity Data

Delineation of Buried Paleochannel Using EM Induction in Eastern Banda Aceh, Indonesia

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