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"ABSTRAKLapangan DELTA merupakan lapangan dominasi uap di Provinsi Jawa Barat yang saat ini memiliki kapasitas terpasang sebesar 273 MWe. Sebagian besar sumur produksi berada di tengah area reservoir, diperlukan pemboran step-out well ke area reservoir boundary guna menghindari intervensi antar sumur. Sumur step-out well pertama di bor kearah barat daya pada tahun 2011, mengacu pada konseptual model yang didasari model MT 3D hasil inversi tahun 2004. Hasil pemboran sumur tersebut menunjukan bahwa area target berada diluar reservoir dan sumur tersebut tidak berproduksi. Setelah evaluasi, didapatkan bahwa model 3D MT yang saat itu digunakan sebagai acuan tidak menunjukkan kesesuaian dengan data sumur step-out well. Pada penelitian ini, penulis akan melakukan delineasi reservoir boundary dengan pendekatan metoda remodeling inversi 3D terhadap data MT tahun 2004. Hasil inversi 3D MT yang baru setelah dikombinasikan dengan beberapa data pendukung seperti data MEQ, gravitasi, peta geologi, data geokimia dan data sumur. Diperoleh bahwa Model 3D MT baru lebih sesuai dengan kondisi bawah permukaan. Beberapa data pendukung tersebut, penulis gunakan sebagai tambahan informasi untuk interpretasi terpadu. Seluruh tahapan kegiatan ini pada akhirnya mampu mendelineasi ulang reservoir boundary dan penulis dapat merekomendasikan area target pemboran. Hasil penelitian ini diharapkan dapat meningkatkan keberhasilan pemboran sumur step-out wells berikutnya.

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ABSTRACTThe DELTA geothermal field is a vapor dominated system in West Java Province of Indonesia which is currently has 273Mwe installed capacity. The majority of production wells are located in the center of reservoir, need to have step out wells to reduce the well intervention risk. The first step out well targetted SW area on 2011, refer to conceptual model based on 3D MT model of 2004. The well cannot produce steam and indicated as area outside the reservoir. After evaluating the result, it found the 3D MT model does not match with the step out well. On this study, the author will delineate the reservoir boundary with MT 3D remodeling applied to the MT data on 2004. The result of new 3D MT model combined with supporting data sets such as MEQ, gravity, geology map, geochemistry data and well data. The new model showed better match to the subsurface condition. The supporting data sets were utilized for conducting comprehensive interpretation. The study activity was successfully able to delineate reservoir boundary and author was able to give recommendation on areas for well targeting zone. This result is expected to be able to increase the drilling success ratio for the further drilling step out wells."

"Untuk menentukan zona prospek diperlukan beberapa kriteria yaitu struktur yang berasosiasi dengan permeabilitas tinggi, temperatur tinggi dan zona upflow. Berdasarkan peta lineament density serta metode FFD menunjukkan zona yang memiliki densitas tinggi berasosiasi dengan zona depresi yang merupakan struktur utama pada lapangan panasbumi ldquo;Q rdquo; dan munculnya beberapa manifestasi berupa fumarol, dan mata air panas APWO, APWK, APLM dan APBK. Dari diagram ternary Cl - SO4 - HCO3 menunjukkan APWO memiliki tipe steam heated water, APWK memiliki tipe bicarbonate water sedangkan APBK dan APLM memiliki tipe chloride water. Berdasarkan tipe fluida tersebut maka dapat diklasifikasikan bahwa lapangan panasbumi ldquo;Q rdquo; merupakan sistem hidrotermal. Penentuan estimasi temperatur reservoir menggunakan geothermometer silika dan geothermometer gas yang masing - masing berkisar antara 141 C - 212 C dan 250 C. Sehingga manifestasi APWO, FWO-1 dan FWO-2 menunjukkan berada pada zona upflow dan APWK, APBK, APLM berada pada zona outflow. Hasil dari inversi 3D MT memperlihatkan sebaran resistivitas rendah < 10 ohm-m memiliki ketebalan 1000 m sampai 1500 m yang diduga sebagai clay cap, sebaran zona resistivitas tinggi > 100 ohm-m terlihat berbentuk updome pada kedalaman -500 sampai -4000 m yang diduga sebagai heat source. Dari hasil proses upward continuation dan reduce to pole, nilai magnetik yang berkisar -250 nT sampai -350 nT berada di bawah manifestasi FWO-01, FWO-02, APWO dan daerah dimana alterasi tersingkap. Sehingga dapat disimpulkan bahwa area yang memiliki densitas tinggi berkorelasi dengan sebaran resistivitas yang bernilai 10 ohm-m dan daerah yang memiliki nilai anomali magnetik rendah -250 nT sampai -200 nT dimana mengindikasikan zona reservoir berasosiasi dengan batas bawah clay cap atau BOC.

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To determine the prospek area in geothermal field, must have the structure associated with high permeability, high temperature and upflow zone. Based on the map of lineament density and the FFD method shows a high density zone associated with the depression zone which is the main structure of the filed Q and the emergence of several manifestations of fumaroles and hot springs APWO, APWK, APLM and APBK. From the ternary diagram Cl SO4 HCO3 shows that APWO has steam heated water type, APWK has bicarbonate water type while APBK and APLM are chloride water type. Based on the obtained geochemical manifestations the geothermal system is a hydrothermal system. Prediction of reservoir temperature using silica geothermometer and gas geothermometer each ranging between 141 C 212 C and 250 C. So the manifestations of APWO, FWO 1 and FWO 2 indicate that they are in the upflow zone and APWK, APBK, APLM are in outflow zone.

The result of 3D MT inversion shows low resistivity 100 ohm m appears to be an updome at depths of 500 to 4000 m suspected as heat source. From the upward continuation and reduce to pole results, magnetic values ranging from 250 nT to 350 nT are under the manifestations of FWO 01, FWO 02, APWO and the areas where alteration is exposed. It can be concluded that areas with high densities are correlated with 10 ohm m resistivity distributions and regions having low magnetic anomaly values 250 nT to 200 nT which indicate the reservoir zone associated with the lower limit of clay cap or BOC."

"Salah satu metode geofisika yang dapat digunakan untuk eksplorasi panas bumi adalah metode gravitasi karena metode ini dapat mendeteksi batuan dibawah permukaan berdasarkan variasi medan gravitasi yang disebabkan oleh perbedaan densitas batuan. Dalam sistem panas bumi, salah satu objek yang sensitif terhadap kontras densitas adalah batuan reservoir. Oleh sebab itu, metode gravitasi sangat tepat digunakan untuk mengidentifikasi batuan reservoir. Batuan reservoir memiliki densitas batuan yang relatif rendah akibat efek pemanasan dari heat source, sedangkan batuan non-reservoir disekitarnya memiliki densitas batuan yang lebih tinggi. Kontak antara kedua batuan inilah yang akan dideteksi oleh metode gravitasi dan selanjutnya dimodelkan dengan metode inversi dalam 3D. Metode inversi dilakukan karena bersifat lebih objektif dan sesuai dengan keadaan asli dilapangan dibandingkan dengan pemodelan forward. Pemodelan juga dilakukan dalam 3D untuk memberikan gambaran yang lebih jelas tentang batuan dibawah permukaan, tidak hanya dari satu penampang saja. Sebagai justifikasi letak batuan reservoir, dilakukan analisis patahan menggunakan analisis derivatif berupa First Horizontal Derivatives FHD dan Second Vertical Derivatives SVD . Identifikasi patahan ini akan membantu menganalisis keberadaan dan bentuk batuan reservoir karena patahan berperan penting sebagai zona recharge dan discharge yang mengarah menuju atau keluar dari batuan reservoir.

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One of many geophysical methods that can be used for geothermal exploration is gravity method because this method is able to detect subsurface rocks based on the variation of gravity field that is caused by the difference of rock density. In geothermal system, one of the object that is sensitive to density contrast is reservoir rock Therefore, gravity method is the appropriate method used to identify geothermal reservoir. Reservoir rock has a relatively low density as a heating efect from heat source, while non reservoir rock has higher density. The contact between these rocks will be detected with gravity method and further will be modeled with inversion method in 3D.

Inversion method is applied because it is more objective and suitable with the real condition rather than forward method. Modeling is also done in 3D to give a better representation on subsurface area, not only from one section. To justify the location of reservoir rock, subsurface structure analysis using derivatives analysis which are First Horizontal Derivatives FHD and Second Vertical Derivatives SVD is done. Structure identification will help analyzing reservoir whereabouts and its form because subsurface structure has an important role as recharge and discharge zone of the geothermal system that aim towards and leave the reservoir rock."

"[Kegiatan eksplorasi geothermal bertujuan mengetahui sistem geothermal daerah penyelidikan yang meliputi model dan batas prospek, karakteristik dan potensial reservoir dan hidrogeologi, untuk penentuan target pemboran, dilanjutkan dengan pemboran eksplorasi.Hasil inversi 3-dimensi data MT akan menyajikan distribusi struktur resistivitas bawah permukaan.Pemboran eksplorasi geothermal bertujuan untuk membuktikan adanya sumber daya geothermal dan menguji model sistem geothermal yang telah dibuat. Kriteria target pemboranadalah area yang memiliki temperature dan permeabilitas yang tinggi. Pada waktu pemboran sumur panas bumi ditembusnya zona bertemperatur tinggi yang disertai atau diikuti dengan terjadinya loss of circulation sangat diharapkan (permeabilitas tinggi), karena merupakan suatu indikasi telah ditembusnya rekahan-rekahan yang diharapkan merupakan zona produksi (feed zone).Untuk menguji model sistem yang dibuat dilakukan korelasi antara data hasil pemboran dengan inverse 3D data MT, khususnya nilai resistivity lapisandengan data temperatur, kandungan mineral alterasi, geokimia dari data pemboran.Dari hubunganantar parameter akan terlihat karakteristik sistem geothermal di daerah penyelidikan, yang memperlihatkan zona prospek yang berhubungan dengan temperature dan permeabilitas yang tinggi. Dari hasil evaluasi akan dilakukan rekonstruksi system geothermal daerah penyelidikan, yang lebih mendekati kondisi bawah permukaan dan dapat dipergunakan untuk membuat rekomendasi pemboran selanjutnya dan arah pengembangan di masa yang akan datang;Geothermal exploration activities aimed at knowing the geothermal system that includes model and boundary the prospects, potential and reservoir characteristics and also hydrological system. By using 3D inversion of MT data, subsurface resistivity distribution structure can be obtained and with the addition of other geosciences data, LumutBalai geothermal system can be constructed. Futhermore, drilling targets zone can be identified from geothermal system which then followed by exploration drilling .Geothermal exploration drilling is carried out to verify the existence of geothermal resources and test the geothermal systems which previously has been made. Drilling target criteria is the area which consist of high temperature and permeability. During geothermal drilling, it is expected that high temperature zone shall be encountered. It will be followed by loss circulation zone which indicates that fractures have already been penetrated and confirm that feed zone has been discovered.In order to test constructed model, correlation between drilling data and 3D MT inverse is carried out, particularly values of resistivity layer with temperature data, alteration mineralcomposition, and geochemical data derived from drilling.Parameter correlation will explain geothermal system characteristics in study area which delineates prospect zones and its association with high temperature and permeability. The evaluation results of this study will reconstruction geothermal system the investigation area, which can be used to develop a recommendation of subsequent drilling and further development direction;Geothermal exploration activities aimed at knowing the geothermal system that includes model and boundary the prospects, potential and reservoir characteristics and also hydrological system. By using 3D inversion of MT data, subsurface resistivity distribution structure can be obtained and with the addition of other geosciences data, LumutBalai geothermal system can be constructed. Futhermore, drilling targets zone can be identified from geothermal system which then followed by exploration drilling .Geothermal exploration drilling is carried out to verify the existence of geothermal resources and test the geothermal systems which previously has been made. Drilling target criteria is the area which consist of high temperature and permeability. During geothermal drilling, it is expected that high temperature zone shall be encountered. It will be followed by loss circulation zone which indicates that fractures have already been penetrated and confirm that feed zone has been discovered.In order to test constructed model, correlation between drilling data and 3D MT inverse is carried out, particularly values of resistivity layer with temperature data, alteration mineralcomposition, and geochemical data derived from drilling.Parameter correlation will explain geothermal system characteristics in study area which delineates prospect zones and its association with high temperature and permeability. The evaluation results of this study will reconstruction geothermal system the investigation area, which can be used to develop a recommendation of subsequent drilling and further development direction, Geothermal exploration activities aimed at knowing the geothermal system that includes model and boundary the prospects, potential and reservoir characteristics and also hydrological system. By using 3D inversion of MT data, subsurface resistivity distribution structure can be obtained and with the addition of other geosciences data, LumutBalai geothermal system can be constructed. Futhermore, drilling targets zone can be identified from geothermal system which then followed by exploration drilling .Geothermal exploration drilling is carried out to verify the existence of geothermal resources and test the geothermal systems which previously has been made. Drilling target criteria is the area which consist of high temperature and permeability. During geothermal drilling, it is expected that high temperature zone shall be encountered. It will be followed by loss circulation zone which indicates that fractures have already been penetrated and confirm that feed zone has been discovered.In order to test constructed model, correlation between drilling data and 3D MT inverse is carried out, particularly values of resistivity layer with temperature data, alteration mineralcomposition, and geochemical data derived from drilling.Parameter correlation will explain geothermal system characteristics in study area which delineates prospect zones and its association with high temperature and permeability. The evaluation results of this study will reconstruction geothermal system the investigation area, which can be used to develop a recommendation of subsequent drilling and further development direction]"

"Permasalahan delineasi sistem geothermal adalah hal yang penting untuk dikaji, karena akan menentukan seberapa besar prospek panas bumi yang berada di subsurface. Metode magnetik bisa menentukan zonasi daerah di subsurface yang mengalami demagnetisasi akibat thermal. Batuan yang menjadi penyusun reservoir mengalami perubahan suseptibilitas dari tinggi ke rendah akibat pengaruh fluida dan panas dari heat source yang berada pada sistem tersebut. Penelitian ini telah membuktikan keberadan delineasi sistem panas bumi Lapangan "E" dengan metode Magnetik dan Magnetotellurik, data magnetik sebanyak 674 titik dikoreksi dengan diurnal variation dan undistributed earth magnetic field atau lebih dikenal dengan IGRF. Setelah itu telah dilakukan kontinuasi hingga ketinggian 700 m asl, dan terlihat bodi yang berorientasi dipole dengan arah NE-SW pada inklinasi intermediet. Dilakukan Reduction to Pole pada hasil pengangkatan keatas dan didapatlah anomali low negatif yang mengindikasikan keberadaan hydrothermally demagnetization rock. Hasil RTP juga dikorelasikan dengan kurva apparent resistivity MT, didapatkan nilai anomali low negatif cenderung berasosiasi dengan kurva MT tipe H. Kontur RTP dimodelkan dengan inversi 3D magnetik dan didapatkan zonasi reservoir berada dikedalaman mean sea level s/d 1900 m bsl. Cross korelasi pun dilakukan antara hasil Inversi 3D magnetik dan 2D Forward Modelling Magnetik serta inversi MT, bahwa zona batuan reservoir memiliki suseptibilitas sebesar 0.04-0.06 Cgs dan dengan resistivitas 20-80 ohm.m, Keberadaan reservoar panas bumi diduga berada di zona upflow hingga ke arah SW yang berada di sekitar sesar utama di daerah lapangan" E" yang berasosiasi dengan anomali low negatif sebesar-300 s.d -550 nT.

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The delineation problem of the geothermal system is important to examine, as it will determine how big the geothermal prospects are in the subsurface. Magnetic methods can zonate the subsurface region undergoing thermal demagnetization processes. The rocks that make up the reservoir have changed the susceptibility from high to low due to the influence of fluid and heat from the heat source in the system.

This research has proved the existence of Geothermal Field 39 s delineation of Field E with Magnetic and Magnetotellurik method, 674 points magnetic data corrected by diurnal variation and undistributed earth magnetic field or better known as IGRF.After that continuity has been carried out to a height of 700 m asl, and visible dipole oriented body with NE SW direction in intermediate inclination. Reduction to Pole was performed on uplift and obtained a low negative anomaly indicating the presence of hydrothermally demagnetization rock.

The RTP results are also correlated with the apparent resistivity MT curve, and the low negative anomaly values tend to be associated with the Type H MT curve. The RTP contour is modeled by a 3D magnetic. And the reservoir zonation is in the mean sea level to 1900 m bsl. Cross correlation was performed between magnetic 3D Inversion and 2D Forward Modeling Magnetic and MT inversion, that reservoir rock zone has a susceptibility of 0.04 0.06 Cgs and with resistivity of 20 80 ohm.m The existence of geothermal reservoir is suspected to be in the upflow zone up to SW direction is in the vicinity of the main fault in the E field area associated with a negative low anomaly 300 s d 550 nT."

"Telah diketahui dengan baik bahwa impedansi magnetotellurik (MT) dapat terdistorsi oleh ketidakhomogenan dekat permukaan (NSI) serta kurang sensitif terhadap struktur geolistrik dalam, hal ini dapat mengganggu interpretasi bawah permukaan dan menghasilkan model yang kurang akurat. Dikarenakan interpretasi 1-D dan 2-D tidak cukup untuk mendeskripsikan model geolistrik yang kompleks, maka dalam penelitian ini dilakukan pemodelan inversi 3-D pada full impedance (MT) dan gabungan full impedance (MT) dengan tipper (MV) pada lapangan panas bumi “R” serta analisis dimensionalitas untuk mengetahui karakteristik dimensi bawah permukaan. Penambahan data tipper pada proses inversi didasarkan pada fakta bahwa ia tidak terpengaruh oleh efek distorsi galvanik. Permasalahan inversi 3-D MT diselesaikan menggunakan algoritma metode Non-Linear Conjugate Gradient (NLCG) dengan program ModEM. Hasil analisis dimensionalitas menunjukkan terdapat dominasi struktur 3-D pada kedalaman dalam dan struktur 2-D pada kedalaman dangkal dengan arah geoelectrical strike dominan N 20° E atau berarah timur laut-barat daya. Pemodelan inversi 3-D menunjukkan kehadiran pola persebaran lapisan penudung (clay cap) dengan ketebalan 1000 – 2000 m pada elevasi 500 m hingga -1500 m serta zona reservoir yang muncul pada elevasi -1500 m dengan orientasi timur laut-barat daya berlokasi di sekitar puncak Gunung S. Hasil komparasi inversi menggunakan mode MT dengan gabungan MT MV menunjukkan penambahan data tipper pada inversi full impedance memberikan informasi yang lebih akurat mengenai gambaran tepi atau batas dan bentuk anomali konduktif dibawah profil yang terletak di lingkungan 3-D daripada melakukan inversi full impedance saja.

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It is well known that the magnetotelluric impedance (MT) can be distorted by near-surface inhomogeneities (NSI) and is less sensitive to deep geoelectrical structures; this can interfere with subsurface interpretation and result in less accurate models. Since 1-D and 2-D interpretations are not sufficient to describe complex geoelectrical models, this study carried out 3-D inversion modeling on full impedance (MT) and a combination of full impedance (MT) and tipper (MV) in geothermal fields "R" and dimensionality analysis to determine the characteristics of the subsurface dimensions. The addition of a data tipper to the inversion process is based on the fact that it is not affected by galvanic distortion. The 3-D MT inversion problem is solved using the Non- Linear Conjugate Gradient (NLCG) algorithm with the ModEM program. The results of the dimensionality analysis show that 3-D structures are dominant at deep depths and 2- D structures at shallow depths with a dominant geoelectrical strike direction of N 20° E or northeast-southwest. 3-D inversion modeling shows a clay cap distribution with a thickness of 1000 – 2000 m at an elevation of 500 m to -1500 m and a reservoir zone that appears at an elevation of -1500 m with a northeast-southwest orientation located around the peak. Gunung S. The comparison of inversion using MT mode with join MT MV shows that the addition of tipper data on full impedance inversion provides more accurate information about the edge or boundary and shape of the conductive anomaly under a profile located in a 3-D environment rather than performing a full impedance inversion alone."

"Lapangan Geotermal Salak merupakan lapangan geotermal terbesar di Indonesia dengan kapasitas terpasang sebesar 377 MW. Dari awal beroperasinya pada Februari 1994 sampai dengan Desember 2014 lapangan ini telah memproduksi 421.759.106,78 Ton uap. Dengan produksi sebesar itu, diperlukan manajemen reservoar yang baik untuk menjaga keberlangsungan produksi jangka panjang. Manajemen reservoar sangat penting dalam upaya mengatasi masalah yang terjadi akibat kegiatan produksi dan reinjeksi, oleh karena itu strategi reinjeksi sebaiknya memperhatikan karakteristik reservoar lapangan geotermal. Penelitian ini menggunakan metode geofisika yaitu 3D MT, Microearthquake dan Microgravity dengan dukungan data sumur dan data produksi serta reinjeksi untuk memprediksi kondisi reservoar sebagai upaya mengantisipasi terjadinya penurunan tekanan reservoar yang berpotensi menurunkan produktifitas sumur produksi. Hasil penelitian ini menyimpulkan bahwa strategi reinjeksi di Awi 9 memegang peranan penting sebagai heat and pressure support di sumur ? sumur produksi. Namun, terdapat indikasi kompaksi pada reservoar sejalan dengan peningkatan kapasitas produksi, hal ini diperkuat dengan terjadinya penurunan permukaan tanah dan peningkatan kejadian gempa mikro pada daerah resevoar dangkal, terjadi penurunan medan gravitasi pada reservoar produksi yang diidentifikasi berhubungan dengan penurunan tekanan reservoar. Hasil ini digunakan sebagai dasar usulan untuk mempertahankan eksistensi sumur - sumur reinjeksi di Awi 9 dan penempatan sumur reinjeksi brine di zona reservoar produksi.

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Salak Geothermal Field is the biggest geothermal field in Indonesia with 377 MW installed capacity. From its commersial operation in February to December 2015, this field has produced 421.759.106,78 Tonnes steam. With these huge production, good reservoir management are necessary to sustain long term production. Reservoir management becomes very important to overcome the problems caused by production and reinjection. Therefore, reinjection strategy should be implemented by considering reservoar characteristic in geothermal field.

This study are using geophysical methods, there are : 3D MT, Microearthquake and Microgravity combined to geological well data support, production and reinjection data to predict reservoir condition as an attempt to anticipate decreasing of reservoir pressure which potentially reduce production.

This study conclude that reinjection strategy in Awi 9 took important part as heat and pressure support to production wells. However, there are some indication of creep compaction in reservoir in line with production capacity escalation, this was supported by land subsidence and increasing of microearthquake event in the shallow part of reservoir, decreasing of gravitational field in production reservoir associated with reservoir pressure drops, this results are used as the basis for the proposals to maintain the existance of reinjection wells in Awi 9 and brine reinjection wells placement in the production reservoir zone."

"Seperti hal nya lapangan geotermal yang sudah diekstraksi lebih dari 25 tahun, Salak juga mengalami penurunan produksi akibat cooling atau penurunan suhu pada reservoir. Analisis 3G, yaitu Geofisika, Geokimia, dan Geologi yang dilakukan seringkali tidak sesuai dengan data sumur, karena kesalahan mendasar dari interpretasi zona resistivitas rendah, barrier sesar atau marjin reservoir terutama pada reservoir di bawah sumur produksi dan injeksi lapangan Salak. Semua data yang dianalisis adalah data yang diperoleh pada waktu sumur awal diproduksi. Analisis penyebaran zona resisitivitas dengan metode seleksi dan re-prosessing yang tepat menjadi hal dasar dari penentuan batas area prospek dan zona uplow dan outflow. Sebaran dan kedalaman zona konduktif mendeskripsikan penyebaran mineral alterasi, kontak litologi, barrier patahan, batas TOR dan BOC (updome shape), perubahan suhu karena perbedaan kontras dari jalur permeabilitas dan arah aliran fluida. Pola ketebalan resistivitas yang relatif sama di atas reservoir atau batas low resistivity anomaly mungkin menghasilkan kesalahan interpretasi dari noise yang perlu dikoreksi. Penelitian ini diharapkan dapat memberikan informasi model konseptual yang lebih konsisten, representatif dan terintegrasi serta menunjukkan kesesuaian dengan data pendukung lainnya, sehingga dapat mengidentifikasi masalah yang dihadapi, dan selanjutnya memberikan hipotesis untuk menjaga keberlangsungan performa reservoir.

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Like most geothermal field which has been extracted for more than 25 years, Salak has been also experienced the production decline, which is quite likely caused by change of well pressure and cooling in reservoir. The existing 3G analysis was frequently contradicted with well data, especially caused by misinterpretation of noisy and low deep resistivity. Furthermore, all corrected 3D inversion MT data is compared with well data, geology , and geochemical data, to produce updated and integrated conceptual model, which can be expexted to re-evaluate analysis of changes in the distribution of resistive zones at initial reservoir conditions that give indication of distribution of alteration minerals, TOR and BOC (updome shape) boundary, lithology contacts, variation of pressure and temperature, and give identification of permeability zone contrasting and fluid pathway, fault orientation corresponds to good aggrement of interpetation of low resistivity zone and well data. The powerfull and developed 3D MT Inversion and observation of anomalous resistivity feature interpreted as clay alteration, fault barrier, upflow and or the expansion of neutral spring water in ouflow zone near Awi 20 and 15. This anomaly is strongly correlated to the temperature changes in hydrothermal mineral. This variation shows the deep and shallow up-dome shaped of geothermal system below Awi 9, 10 and 14, confirmed by Parabakti and Cibeureum fumarol analysis, thin clay cap, fault intersection map and especially high temperature in well data. To test this hypothesis, writer recast all supporting data with revised resistivity model. This research is expected to provide information on a representative conceptual model and accurate analysis to the current problems respectively, hence improved approachs can be taken to implement further recommendation on how to hypothesize a strategic solution to maintain reservoir performance. "

"Daerah Lawu terletak di Kabupaten Karanganyar - Jawa Tengah dan Kabupaten Magetan - Jawa Timur. Dari data geologi, daerah gunung Lawu terdiri dari lava yang terjadi secara berkala dimana umur lava tersebut termasuk dalam umur batuan kuarter (Plistosen). Lawu merupakan zona vulkanik. Daerah Lawu merupakan daerah prospek Geothermal yang ditandai oleh adanya manifestasi permukaan seperti fumarole dan mata air panas dan telah dilakukan survey untuk memastikan itu. Survey yang dilakukan adalah survey Geofisika dengan metode Magnetotellurik untuk memastikan permukaan di dalam tanah. Dalam metode Magnetotellurik ini ada tahapan-tahapannya seperti : akuisisi, processing dan interpretasi. Dalam tahap processing nantinya akan ada tahap pre-processing, yaitu mengubah domain waktu ke frekuensi, parameter robust dan seleksi cross power, tahap koreksi statik, dan tahap inversi. Setelah mendapatkan hasil inversi, maka akan dilakukan korelasi antara data geologi dan data geokimia untuk tahapan interpretasi. Hasil dari keseluruhannya tersebut akan dibentuk dalam satu model sehingga akan terlihat gambaran di bawah permukaan tanah tersebut. Dari hasil didapatkan bahwa top reservoar terdapat pada elevasi 500-1000 m. Sedangkan dari data geokimia, untuk pendugaan temperatur sekitar 250 oC dengan menggunakan termometer gas CO2. Jadi, sistem geothermal yang ada di daerah lawu merupakan sistem geothermal tipe moderate.

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The area of Lawu is located in Karayanyar Regency – East Java and Magenta Regency - Central Java. From geological data, the Lawu mountain area consist of lava that happens regularly where the lava are included in the old of quarter (Pleistocene). The Lawu is a volcanic zone. The area of Lawu is geothermal prospect areas are characterized by the presence of surface manifestations such as fumaroles and hot springs and have conducted a survey to ascertain that. Survey is a conducted by the Geophysical magnetotelluric method to ensure the soil surface.

In the magnetotelluric method there its phases such as: acquisition, processing and interpretation. In a later phase of processing will be pre-processing phase, which convert the time domain to the frequency, and the selection of robust parameter cross power, static correction phase, and phase inversion. After getting the results of the inversion, there will be a correlation between the data for geological and geochemical data interpretation phases.

The results of the whole will be formed into a single model that will look the picture below the soil surface. From the results it was found that there is a top reservoir at an elevation of 500-1000 m. while from geochemical data, to estimate the temperature around 250oC by CO2 thermometer. So, geothermal systems in areas of the Lawu are moderate type of geothermal system."

"Lapangan geotermal X berada di area gunung A yangmana berdasarkan data geologi ditemukan adanya manifestasi berupa hot spring dan fumarole. Pengukuran MT dilakukan untuk mengetahui persebaran resistivity batuan di bawah permukaan. Pengolahan data MT dilakukan dari analisis time series dan filtering noise kemudian dilakukan Transformasi Fourier dan Robust Processing. Setelah itu baru dilakukan crosspower untuk menyeleksi data sehingga output dari proses ini berupa kurva MT. Setelah didapatkan kurva MT dilakukan koreksi statik dikarenakan kurva TE dan TM terjadi shifting. Untuk proses akhirnya baru dilakukan inversi 2D dan inversi 3D. setelah itu dilakukan perbandingan antara 2D dan 3D. Wilayah interest lapangan X berada di lintasan AA dan lintasan AB. Berdasarkan analisis 3D diidentifikasi bahwa zona alterasi menipis di wilayah upflow dan menebal ke arah outflow yangmana sesuai dengan teori. Wilayah upflow dapat diketahui dengan melihat manifestasi berupa fumarole.

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The geothermal field X is located in the area of Mount A which based on geological data found the presence of hot spring and fumarole manifestations. MT measurements were carried out to determine the distribution of rock resistivity in the subsurface. MT data processing is starts from time series analysis and noise filtering then Fourier Transform and Robust Processing are performed. After that, crosspower is done to select data so that the output of this process is an MT curve. After got the MT curve then a static correction is done because the TE and TM curves are shifting. For the final process are 2D inversion and 3D inversion. After that make a comparison between 2D and 3D. The area of interest in field X is on the line AA and line AB. Based on the 3D analysis, it was identified that alteration zones thinned in the upflow region and thickened towards the outflow which is make sense with the theory."