排序方式: 共有11条查询结果,搜索用时 15 毫秒
1.
Alice Recanati Yves Missenard Rmi Leprêtre Ccile Gautheron Jocelyn Barbarand Fatiha Abbassene Nachida Abdallah Aziouz Ouabadi Mohamed El Messaoud Derder Claire Boukari Rosella Pinna‐Jamme Frdric Haurine 《地学学报》2019,31(1):39-48
In North Africa, the Algerian margin is made of basement blocks that drifted away from the European margin, namely the Kabylia, and docked to the African continental crust in the Early Miocene. This young margin is now inverted, as dated Miocene (17 Ma) granites outcrop alongshore, evidencing kilometre‐scale exhumation since their emplacement. Age of inversion is actually unknown, although Pliocene is often considered in the offshore domain. To decipher the exhumation history of the margin between 17 and 5 Ma, we performed a coupled apatite fission track (AFT) and (U–Th–Sm)/He (AHe) study in the Cap Bougaroun Miocene granite. AFT dates range between 7 ± 1 and 10 ± 1 Ma, and mean AHe dates between 8 ± 2 and 10 ± 1 Ma. These data evidence rapid and multi‐kilometre exhumation during Tortonian times. This event cannot be related to slab break‐off but instead to the onset of margin inversion that has since developed as an in‐sequence north‐verging deforming prism. 相似文献
2.
This paper aims at examining the increase of phenol adsorption breakthrough curves spreading caused by the chemical heterogeneity of granular activated carbon fixed beds. The local and the thermodynamic equilibrium assumption, as well as the nonlinear adsorption obeying to Langmuir isotherm, are considered. This study particularly tempts to link the reduced variance of phenol breakthrough curves to a measurable quantifying parameter of the chemical heterogeneity. The investigated artificial heterogeneous media are prepared by alternating layers of two types of granular activated carbon, active and non-active ones, that have similar physical properties. On the one hand, the chemical heterogeneity is quantified by the active layer relative thickness of the column length, l1/L. On the other hand, it is quantified by the mean value of the probability distribution γ. The latter also represents the mean active grains mass ratio of the total medium mass, hence the medium mean capacity. The obtained results show an increase in the reduced variance and thus the effective global dispersion with the heterogeneity; the increase is as important as the medium capacity decreases. However, the dispersion increase achieves a limit value, even when the heterogeneity increases. The results are statistically modelled using a regression equation function of the capacity variation in terms of γ and the chemical heterogeneity in terms of l1/L. The relationship combining the medium capacity and the chemical heterogeneity is obtained. The relationship implicitly takes into account the effect of the column length. 相似文献
3.
Fluid flow during permeation grouting of fine sands with a microcement-based grout is studied by assuming that the heterogeneous medium composed of the initial granular skeleton, filtered cement and the interstitial fluid phase can be replaced by a continuous equivalent medium at the macroscopic level. Consequently, the method of Homogenization of Periodic Structures (HPS) is used to identify the effective permeability tensor evolution under the effect of cement filtration. The expression of the macroscopic permeability tensor derived through the HPS procedure is shown to depend on the permeating fluid viscosity and the geometrical arrangement of the sand grains and cement deposit within the microstructure. Numerical computations are made using various two-dimensional and three-dimensional microstructures, and the model results are confronted with grouting experiments performed on small scale columns in the laboratory. 相似文献
4.
Imen Guasmi Houria Kherici-Bousnoubra Nacer Kherici Fatiha Hadji 《Environmental Earth Sciences》2010,60(5):985-992
Water quality in the Northern part of Mellegue-Medjerda watershed (East Algeria) has been adversely affected by important
pollutants discharged into the Medjerda wadi without, in most cases, any treatment. Chemical and physical degradation are
due to agricultural and industrial practices and domestic wastewaters. Over a three-month period, a study of the low-flow
water quality characteristics throughout Medjerda wadi was undertaken. Longitudinal profiles of water quality were constructed
using data from fourteen sites. All sewage, agricultural, and industrial inputs were included. Analyzed properties were nutrients
(NO3
−, NO2
−, NH4
+, and PO4
3−), Biochemical oxygen demand after five days (BOD5), chemical oxygen demand (COD), and dissolved oxygen (DO). Along Medjerda wadi, all values change because of conditions specific
to each sampling station. Nitrate was the most important form of nitrogen-element load (94%). Its concentration reached 34.3 mg L−1 at OM4 point, downstream of domestic wastewater discharges. The spatial evolution of the organic pollution index (OPI) shows that
the wastewater effluent constitutes the main source of pollution. Indeed, water quality goes from a moderate pollution state
at some sampling stations not or slightly affected by wastewaters discharges to a very strong pollution state (OPI of about
1.75) downstream of the domestic effluents inputs of Souk-Ahras city. 相似文献
5.
Muriel Ruault-Djerrab Fatiha Kechid-Benkherouf 《Arabian Journal of Geosciences》2011,4(7-8):1289-1299
The Djebel Chemla section is situated in the north-east of Algeria, close to the town of Tébessa and just a few kilometers from the Tunisian border. This section is composed mainly of a sequence of marl and marly limestone levels, alternating with recurring oyster levels which range in age from Vraconnian to the Early Turonian. Firstly, the micropaleontological study of the content (counting of foraminifera and ostracods, thin sections) allows the subdivision of the section into four biozones, with Rotalipora appenninica, Rotalipora globotruncanoides, Rotalipora cushmani, and Whiteinella archaeocretacea as bio-indicators; and, secondly, it provides the opportunity to specify the paleoenvironment. The supposed depositional environment is rather calm and deep, of an external platform type, with a maximum depth of 200 m. Bottom waters seem to be commonly poorly oxygenated. The end-Cenomanian anoxic crisis was also characterized by the presence of Bahloul facies levels, rich in TOC, in filaments and of globulous planktic foraminifera, including a considerable proportion of Heterohelix. The genus Rotalipora has disappeared a few levels lower down. 相似文献
6.
7.
Bachir Hallouche Abbas Marok Lahcen Benaabidate Yagoubia Berrahal Fatiha Hadji 《Environmental Earth Sciences》2017,76(9):340
Groundwater constitutes the main source of water supply in the High Mekerra watershed of northwestern Algeria. This resource is currently under heavy pressures to meet the growing needs of drinking water and irrigation. This study assesses the geochemical characteristics of groundwater of the High Mekerra watershed at 21 points distributed across the two main aquifers (Ras El Ma and Mouley Slissen) in the region. Hydrochemical facies of Ras El Ma groundwater are dominantly MgCl and CaCl type, while those of Mouley Slissen groundwater are of CaHCO3 type. Principal component analysis shows a strong correlation between groundwater mineralization and Ca2+, Na+, Cl? and SO4 2? ions stemming from the dissolution of carbonates, gypsum and anhydrite. Groundwater mineralization evolves from south to north. Geochemical modeling shows that the High Mekerra groundwater is saturated with respect to calcite and dolomite and undersaturated with respect to gypsum and anhydrite. Nitrate concentrations that exceed the WHO standard (50 mg L?1) at several points are linked to the agro-pastoral activities in this region. 相似文献
8.
Fatiha Laoufi Ahmed-Hafid Belbachir Noureddine Benabadji Abdelouahab Zanoun 《Comptes Rendus Geoscience》2011,343(10):653-663
We have mapped the region of Oran, Algeria, using multispectral remote sensing with different resolutions. For the identification of objects on the ground using their spectral signatures, two methods were applied to images from SPOT, LANDSAT, IRS-1 C and ASTER. The first one is called Base Rule method (BR method) and is based on a set of rules that must be met at each pixel in the different bands reflectance calibrated and henceforth it is assigned to a given class. The construction of these rules is based on the spectral profiles of popular classes in the scene studied. The second one is called Spectral Angle Mapper method (SAM method) and is based on the direct calculation of the spectral angle between the target vector representing the spectral profile of the desired class and the pixel vector whose components are numbered accounts in the different bands of the calibrated image reflectance. This new method was performed using PCSATWIN software developed by our own laboratory LAAR. After collecting a library of spectral signatures with multiple libraries, a detailed study of the principles and physical processes that can influence the spectral signature has been conducted. The final goal is to establish the range of variation of a spectral profile of a well-defined class and therefore to get precise bases for spectral rules. From the results we have obtained, we find that the supervised classification of these pixels by BR method derived from spectral signatures reduces the uncertainty associated with identifying objects by enhancing significantly the percentage of correct classification with very distinct classes. 相似文献
9.
Fatiha Bouchelaghem 《Mathematical Geosciences》2011,43(1):55-73
This paper presents an analytical study of fluid flow in a porous medium presenting pores of two different length scales:
at the smallest or microscopic scale, the presence of connected voids confers a porous medium structure to the material investigated,
while at the upper or mesoscopic scale, macro-pores are present. This microstructure is employed to represent the progressive
opening of inter-aggregate pore spaces observed in natural compacted montmorillonites polluted by heavy metal ions. Three-dimensional
analytical expressions are rigorously derived for pore fluid velocity and excess pore fluid pressure within the porous matrix,
around an occluded ellipsoidal inter-aggregate void. The eccentricity ratio is employed to characterize the geometrical shape
of the ellipsoidal void, while its orientation with respect to the inflow in the far field is determined by the dip angle
θ. As an application, we investigate the flow focusing effect for varying eccentricity ratios and dip angles. 相似文献
10.
Fatiha Bouchelaghem 《Mathematical Geosciences》2011,43(1):23-53
This paper presents an analytical study of fluid flow in a porous medium presenting pores of two different length scales: at the smallest or microscopic scale, the presence of connected voids confers a porous medium structure to the material investigated, while at the upper or mesoscopic scale, macro-pores are present. This microstructure is employed to represent the progressive opening of inter-aggregate pore spaces observed in natural compacted montmorillonites polluted by heavy metal ions. Three-dimensional analytical expressions are rigorously derived for pore fluid velocity and excess pore fluid pressure within the porous matrix, around an occluded ellipsoidal inter-aggregate void. The eccentricity ratio is employed to characterize the geometrical shape of the ellipsoidal void, while its orientation with respect to the inflow in the far field is determined by the dip angle θ. As an application, we investigate the flow focusing effect for varying eccentricity ratios and dip angles. 相似文献