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The Aluto-Langano geothermal field is located in the central southern portion of Ethiopia within the Ethiopian Rift Valley.
The gravity of the area was surveyed in an attempt to delineate the subsurface structure and to better understand the relationship
between the geothermal systems and the subsurface structure. The gravity data were analyzed using integrated gradient interpretation
techniques, such as the Horizontal Gradient (HG), Source Edge Detection (SED), and Euler Deconvolution (ED) methods. These
techniques detected many faults that were compared with the mapped faults in the surface geology. The results of the present
study will lead to an improved understanding of the geothermal system in the study area and aid the future geothermal exploration
of the area. 相似文献
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Gravity and magnetotelluric investigations to elicit the origin of Hammam Faraun hot spring,Sinai Peninsula,Egypt 总被引:1,自引:0,他引:1
Mohamed Abdelzaher Jun Nishijima Gad El-Qady Essam Aboud Osama Masoud Mamdoh Soliman Sachio Ehara 《Acta Geophysica》2011,59(3):633-656
There is a clear correlation between the principal areas of current geothermal development and the seismically active boundaries
of the moving segments of lithosphere defined by the plate tectonic models of the Earth. The tectonic position of Egypt in
the northeastern corner of African continent suggests that the most important areas for geothermal exploration are in the
region where a cluster of hot springs with varied temperatures was located around the Gulf of Suez. Gravity and magnetotelluric
surveys were made in the area of Hammam Faraun hot spring, which represents the most promising area for geothermal development
in Egypt. These surveys were carried out for the purpose of eliciting the origin of Hammam Faraun hot spring. The results
of the analyses and interpretations of these data show that the heat source of the hot spring is due to uplift of hot basement
rock. This uplift may cause deep circulation and heating of the undergroundwater. 相似文献
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Kaori Jogo Motoo Ito Shigeru Wakita Sachio Kobayashi Jong Ik Lee 《Meteoritics & planetary science》2019,54(5):1133-1152
We observed metamorphosed clasts in the CV3 chondrite breccias Graves Nunataks 06101, Vigarano, Roberts Massif 04143, and Yamato‐86009. These clasts are coarse‐grained polymineralic rocks composed of Ca‐bearing ferroan olivine (Fa24–40, up to 0.6 wt% CaO), diopside (Fs7–12Wo44–50), plagioclase (An52–75), Cr‐spinel (Cr/[Cr + Al] = 0.4, Fe/[Fe + Mg] = 0.7), sulfide and rare grains of Fe‐Ni metal, phosphate, and Ca‐poor pyroxene (Fs24Wo4). Most clasts have triple junctions between silicate grains. The rare earth element (REE) abundances are high in diopside (REE ~3.80–13.83 × CI) and plagioclase (Eu ~12.31–14.67 × CI) but are low in olivine (REE ~0.01–1.44 × CI) and spinel (REE ~0.25–0.49 × CI). These REE abundances are different from those of metamorphosed chondrites, primitive achondrites, and achondrites, suggesting that the clasts are not fragments of these meteorites. Similar mineralogical characteristics of the clasts with those in the Mokoia and Yamato‐86009 breccias (Jogo et al. 2012 ) suggest that the clasts observed in this study would also form inside the CV3 chondrite parent body. Thermal modeling suggests that in order to reach the metamorphosed temperatures of the clasts of >800 °C, the clast parent body should have accreted by ~2.5–2.6 Ma after CAIs formation. The consistency of the accretion age of the clast parent body and the CV3 chondrule formation age suggests that the clasts and CV3 chondrites could be originated from the same parent body with a peak temperature of 800–1100 °C. If the body has a peak temperature of >1100 °C, the accretion age of the body becomes older than the CV3 chondrule formation age and multiple CV3 parent bodies are likely. 相似文献
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The tectonic position of Egypt in the northeastern corner of the African continent suggests that it may possess significant geothermal resources, especially along its eastern margin. The most of the thermal springs in Egypt are located along the shores of Gulf of Suez and Red Sea. These springs are probably tectonic or nonvolcanic origin associated with the opening of the Red Sea—Gulf of Suez rifts, where the eastern shore of the Gulf of Suez is characterized by superficial thermal manifestations including a cluster of hot springs with varied temperatures. Hammam Faraun area consists of the hottest spring in Egypt where the water temperature is 70°C. Conceptual as well as numerical models were made on the Hammam Faraun hot spring based on geological, geochemical, and geophysical data. The models show that the heat source of the hot spring is probably derived from high heat flow and deep water circulation controlled by faults associated with the opening of the Red Sea and Gulf of Suez rifts. 相似文献
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Hakim Saibi Ahcene Semmar Mohamed Mesbah Sachio Ehara 《Arabian Journal of Geosciences》2009,2(1):83-93
Phreatic aquifers present many serious problems for local public authorities, and they have done so especially for the water
resources managers in Oued-Souf, Algeria, since 1980. Recently, a perturbation in piezometric level was observed in Oued-Souf.
The spatial distribution of piezometric level data was analyzed by applying geostatistical methods, which provide an indication
of the uncertainty of the estimation using the computer software VARIOWIN 2.2. In this paper, the evolution of the piezometric
level by referring to other research campaigns was studied. Campaigns were conducted from March 1993 to April 2002. In the
beginning, elementary statistics has been carried out to understand the statistical distribution and performed an analysis
of variance so that two campaigns could be chosen for comparison. Geostatistics for modeling and cartography were applied.
The results show that piezometric levels admit power model that the direction of groundwater flow is from south to north and
that, due to the return of irrigation water (there is no drainage system), water levels increase in places like Foulia (1.35 m),
northwest of Oued-Souf (1.43 m), Kouinine (4.58 m), and Ouzitene (3.01 m). The water levels also decrease in places like Guemar,
Dmitha, Rhamra, and Djeldida, from between −2 and −6 m, due to excessive pumping of groundwater. 相似文献
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The Gulf of Suez region is one of the most interesting geothermal areas in Egypt because of the high temperatures of its springs.The eastern and western shores of the Gulf of Suez are characterized by superficial thermal manifestations including a cluster of hot springs with varied temperatures.Variations of deuterium and oxygen-18 concentrations in thermal waters have been used to aid in describing the source of recharge in the Gulf of Suez hot springs.Isotope and geochemical data for the Gulf of Suez thermal waters suggest that recharge to the hot springs may not be entirely from the Gulf of Suez water,but possibly from the meteoric water that comes from areas of higher altitude surrounding the hot springs. 相似文献
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The feasibility of two low-carbon society (LCS) scenarios, one with and one without nuclear power and carbon capture and storage (CCS), is evaluated using the AIM/Enduse[Global] model. Both scenarios suggest that achieving a 50% emissions reduction target (relative to 1990 levels) by 2050 is technically feasible if locally suited technologies are introduced and the relevant policies, including necessary financial transfers, are appropriately implemented. In the scenario that includes nuclear and CCS options, it will be vital to consider the risks and acceptance of these technologies. In the scenario without these technologies, the challenge will be how to reduce energy service demand. In both scenarios, the estimated investment costs will be higher in non-Annex I countries than in Annex I countries. Finally, the enhancement of capacity building to support the deployment of locally suited technologies will be central to achieving an LCS. Policy relevance Policies to reduce GHG emissions up to 2050 are critical if the long-term target of stabilizing the climate is to be achieved. From a policy perspective, the cost and social acceptability of the policy used to reduce emissions are two of the key factors in determining the optimal pathways to achieve this. However, the nuclear accident at Fukushima highlighted the risk of depending on large-scale technologies for the provision of energy and has led to a backlash against the use of nuclear technology. It is found that if nuclear and CCS are used it will be technically feasible to halve GHG emissions by 2050, although very costly. However, although the cost of halving emissions will be about the same if neither nuclear nor CCS is used, a 50% reduction in emissions reduction will not be achievable unless the demand for energy service is substantially reduced. 相似文献
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Hakim Saibi Essam Aboud Agus Setyawan Sachio Ehara Jun Nishijima 《Arabian Journal of Geosciences》2011,5(5):1047-1054
Mount Ungaran is a Quaternary volcano located in the province of Central Java, Indonesia. The study area was covered by a gravity survey in order to delineate the subsurface structure and its relation to the hot springs that are spread throughout the area. The gravity data were analyzed using gravity gradient interpretation techniques, such as the horizontal gradient and Euler deconvolution methods, and many faults were detected. The results of the present study suggest that the hot springs around Ungaran Volcano are structurally controlled and have depths ranging from 1 to 3 km. The results of the present study lead to an understanding of the relationships between the interpreted faults and the locations of hot springs and may aid in future geothermal exploration of the area. 相似文献