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"Pengembangan panasbumi memiliki resiko kegagalan yang tinggi bagi para investor. Oleh karena itu, tahap eksplorasi mempunyai peran penting dalam pengembangan panasbumi. Dalam tahap eksplorasi diperlukan pemahaman yang baik mengenai kondisi bawah-permukaan dengan mengintegrasikan data geosains. Daerah panas bumi Cisolok-Cisukarame berada di lingkungan batuan sedimen berumur Miosen-Pliosen, batuan intrusi asam Miosen-Pliosen dan batuan andesit Plistosen. Batuan berumur Plistosen ini merupakan produk vulkanik termuda di daerah ini. Berdasarkan pemunculan manifestasi panas dipermukaan, didentifikasikan tiga zona prospek panas bumi yaitu prospek panas bumi Cisolok, Cisukarame dan Sangiang. Di daerah ini terdapat 3 kelompok mata air panas yaitu kelompok Cisolok, Cisukarame, dan Cimagit. Manifestasi panas yang muncul di Cisolok Cisukarame terdiri dari mata air panas, endapan sinter dan batuan teralterasi. Kemunculan batuan teralterasi diperkirakan dikontrol oleh struktur berarah timur laut-barat daya dan barat laut-tenggara. Analisis Prospek Panasbumi Cisolok Cisukarame Menggunakan Data Magnetotelluric dan Gravitasi dilakukan untuk mengkaji data geokimia dan data geologi sebagai data pendukung serta data geofisika yaitu data Magnetotelluric dan Gravitasi sebagai data utama. Dari kajian geokimia dapat diketahui bahwa area geothermal Cisolok Cisukarame merupakan sistem dengan dominasi air dengan temperatur reservoir pada area prospek Cisolok berada pada kisaran 140 - 150 oC sedangkan pada area prospek Cisukarame berada pada kisaran 170 - 190 oC. Dari pemodelan 2D Magnetotellurik (MT) yang menggambarkan distribusi resistivitas bawah permukaan diketahui bahwa zona prospek panasbumi yang layak untuk dikembangkan adalah di area Cisukarame. Hal tersebut juga didukung model 2D gravitasi yang menggambarkan struktur bawah permukaan. Dari data geosains didapatkan model konseptual serta rekomendasi target pemboran yaitu Sumur A1 diarahkan memotong struktur yang berarah timur laut - barat daya dengan kedalaman sumur ±1200 m. Sedangkan sumur A2 diarahkan memotong struktur yang berarah tenggara - barat laut dengan kedalaman sumur ±1200 m. Sumur B di tempatkan mengarah pada struktur yang mengontrol pemunculan manifestasi mata air panas yaitu memotong struktur yang berarah timur laut ? barat daya dan struktur yang berarah utara - selatan, dengan kedalaman sumur sekitar ±1200 meter. Estimasi total potensi energi panas bumi untuk area prospek Cisukarame dengan menggunakan binary cycle power plant adalah sebesar 18 MWe hingga 39,6 MWe.

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Geothermal development has a high risk of failure for investors. Therefore, the exploration phase has an important role in the development of geothermal. The exploration phase required a good understanding of subsurface conditions by integrating the data geosciences. Geothermal area Cisolok - Cisukarame located within sedimentary rocks Miocene - Pliocene , Miocene - acid intrusive rocks of Pliocene and Pleistocene andesite. Rock Pleistocene age is the youngest volcanic products in this area. Based on the appearance of the surface manifestations, is identified three zones geothermal prospects Cisolok , Cisukarame and Sangiang. In this area there are 3 groups of hot springs that group Cisolok, Cisukarame, and Cimagit. Heat manifestations that appear in Cisolok Cisukarame consists of hot springs, sediment and rock alteration sinter. The emergence of rock alteration estimated controlled by trending structures northeast - southwest and northwest - southeast.

Geothermal Prospects Analysis Cisolok Cisukarame Using Data Magnetotelluric and Gravity conducted to assess the geochemical data and geological data as supporting data and geophysical data is data Magnetotelluric and Gravity as the main data. From the geochemical studies it is known that the geothermal area Cisolok Cisukarame is a system of domination by the temperature of water in the reservoir area Cisolok prospects in the range of 140-150 ° C while the Cisukarame prospect area in the range of 170-190 ° C. From modeling 2D magnetotelluric (MT) which describes the subsurface resistivity distribution is known that the possible zone geothermal prospects for development is in the Cisukarame area. This is also supported by 2D gravity models which describe the subsurface structure.

From the data geoscience obtained conceptual model and well drilling targets recommendations are well A1 directed to northeast - southwest trending structures with a well depth of 1200 m ± . While wells A2 directed to southeast - northwest trending structures at a depth of 1200 m ± wells . Wells B in place leads to structures that control the appearance of the manifestation of the hot springs are cut structures trending northeast - southwest and structures trending north - south, with a well depth of about ± 1200 meters .

Estimates of the total potential of geothermal energy for Cisukarame prospect area by using binary cycle power plant is 18 MWe to 39.6 MWe."

"Daerah Cisukarame, sukabumi merupakan salah satu area prospek panas bumi di Indonesia yang masuk kedalam wilayah kerja panas bumi. Namun, belum adanya kegiatan eksplorasi yang memanfaatkan potensi daerah tersebut, sehingga studi terus dilakukan untuk dapat menjadi bahan pertimbangan area yang akan di eksplorasi. Pemetaan alterasi dapat menjadi indikator suatu area memiliki potensi panas bumi serta keberadaan mineralisasi yang dapat dieksplorasi lebih lanjut. Oleh karena itu, penelitian bertujuan menentukan tipe, zonasi, serta penggambaran dalam model penampang mengenai alterasi hidrotermal dan mineralisasi pada Daerah Cisukarame. Metode yang digunakan adalah integrasi antara metode penginderaan jauh berupa analisis Fault Fracture Density (FFD), Land Surface Temperature (LST), dan Principal Component Analysis (PCA) dengan metode survey lapangan berupa petrografi dan X-Ray Diffraction (XRD). Hasil penelitian menunjukan bahwa integrasi antara penggunaan metode FFD dan LST dengan survey lapangan terdapat manifestasi panas bumi berupa alterasi, sumber air panas, dan kolam air panas yang ditemukan terutama pada sekitar aliran Sungai Cisukarame. Berdasarkan integrasi analisis PCA, petrografi, dan XRD terdapat tiga tipe alterasi pada daerah penelitian yaitu filik, propilitik, dan argilik. Alterasi pada daerah penelitian berasosiasi dengan mineralisasi berupa pirit dengan tipe endapan berupa epitermal sulfidasi rendah. Model penampang alterasi menggambarkan sebaran alterasi pada daerah penelitian berdasarkan penarikan satu garis penampang.

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The Cisukarame area, Sukabumi is one of the geothermal prospect areas in Indonesia which is included in the geothermal working area. However, there is no exploration activity that utilizes the potential of the area, so studies continue to be carried out to be considered for areas to be explored. Alteration mapping can be an indicator of an area that has geothermal potential and the presence of mineralization that can be explored further. Therefore, this study aims to determine the type, zoning, and depiction in the cross-sectional model regarding hydrothermal alteration and mineralization in the Cisukarame area. The method used is the integration of remote sensing methods in the form of Fault Fracture Density (FFD) analysis, Land Surface Temperature (LST), and Principal Component Analysis (PCA) with field survey methods in the form of petrography and X-Ray Diffraction (XRD). The results showed that the integration between the use of FFD and LST methods with field surveys contained geothermal manifestations in the form of alteration, hot springs, and hot springs which were found mainly in the vicinity of the Cisukarame River flow. Based on the integration of PCA, petrography, and XRD analysis, there are three types of alteration in the study area, namely phyllic, propylitic, and argillic. Alteration in the study area is associated with mineralization in the form of pyrite with a low sulfidation epithermal type of deposit. The cross-sectional model of alteration describes the distribution of alterations in the study area based on the drawing of one cross-sectional line."

"Wilayah Cisolok-Cisukarame merupakan area prospek geotermal liquid dominated geothermal system yang berlokasi di Kabupaten Sukabumi, Provinsi Jawa Barat, Indonesia. Aktivitas geotermalnya dicirikan dengan kemunculan manifestasi permukaan dalam bentuk mata air panas di sepanjang sungai Cisolok dan Cisukarame. Eksplorasi geotermal pertama di wilayah Cisolok-Cisukarame telah dilakukan sejak tahun 1970 dan sumur eksplorasi pertama dilakukan pada akhir 1986 di dekat mata air panas Cisolok hingga kedalaman 1200 meter dan mendapati temperatur di dasar sumur sebesar 120o C. Beberapa penelitian serupa telah dilakukan sebelumnya, namun model konseptual dari penelitian terdahulu belum secara akurat dapat menduga lokasi keberadaan reservoir dan heat source dikarenakan keterbatasan data sehingga interpretasi yang dilakukan belum tepat. Dalam penelitian ini, rekonstruksi model konseptual geotermal dilakukan untuk memecahkan permasalahan utama dalam menentukan keberadaan reservoir dan heat source, berbasis integrasi data geologi, geokimia, gravitasi satelit GGMPlus, dan magnetotellurik. Berdasarkan hasil interpretasi model konseptual yang telah direkonstruksi, keberadaan reservoir pada sistem geotermal Cisolok-Cisukarame diduga berada dibawah manifestasi permukaan Cisukarame yang berperan sebagai zona upflownya dan mengalami perluasan ke arah timur laut. Temperatur pada reservoir mencapai 235o C dengan sumber panas yang diduga berasal dari sisa panas Gunung Halimun berumur kuarter. Area prospek berdasarkan pertimbangan pola persebaran resistivitas serta batas reservoir diperkirakan memiliki luas sebesar 15 km2 dengan top of reservoir pada kedalaman 500 - 1000 meter. Lokasi titik pemboran sumur eksplorasi direkomendasikan berada pada zona permeable timur laut manifestasi Cisukarame mencapai kedalaman 1000 meter pada zona dengan temperature yang tinggi. Diperkirakan area prospek reservoir masih mengalami perluasan ke arah utara dan timur laut, namun diperlukan survei geofisika lanjut untuk mengonfirmasi kemungkinan possible extend tersebut.

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The Cisolok-Cisukarame region is a liquid dominated geothermal system prospect area located in Sukabumi Regency, West Java Province, Indonesia. Its geothermal activity is characterized by the appearance of surface manifestations in the form of hot springs along the Cisolok and Cisukarame rivers. The first geothermal exploration in the Cisolok-Cisukarame area has been carried out since 1970 and the first exploration well was carried out at the end of 1986 near the Cisolok hot spring to a depth of 1200 meters and found the temperature at the bottom of the well of 120o C. Several similar studies have been carried out before, but the model conceptual studies from previous studies have not been able to accurately predict the location of the reservoir and heat source due to limited data so that the interpretation is not correct. In this research, the reconstruction of the conceptual geothermal model is carried out to solve the main problems in determining the existence of reservoirs and heat sources, based on the integration of geological, geochemical, gravity satellite GGMPlus, and magnetotelluric data. Based on the interpretation of the reconstructed conceptual model, the reservoir in the Cisolok- Cisukarame geothermal system is predicted below the surface manifestation of Cisukarame which acts as the upflow zone and is expanding to the northeast. The temperature in the reservoir reaches 235o C with the heat source predicted to come from the residual heat of Mount Halimun with quarter age. The prospect area based on consideration of the resistivity distribution pattern and reservoir boundary is estimated to have an area of 15 km2 with a top of reservoir at a depth of 500 - 1000 meters. The location of the exploration well drilling point is recommended to be in the northeastern permeable zone of the Cisukarame manifestation reaching a depth of 1000 meters in a zone with high temperatures. It is estimated that the reservoir prospect area is still expanding to the north and northeast, but further geophysical surveys are needed to confirm the possibility of this possible extend."