Understanding and developing groundwater resources in arid regions such as El Salloum basin, along the northwestern coast of Egypt, remains a challenging issue. One-dimensional (1D) electrical sounding (ES), two-dimensional (2D) electrical resistivity imaging (ERI), and very low frequency electromagnetic (VLF-EM) measurements were used to investigate the hydrogeological framework of El Salloum basin with the aim of determining the potential for extraction of potable water. 1D resistivity sounding models were used to delineate geoelectric sections and water-bearing layers. 2D ERI highlighted decreases in resistivity with depth, attributed to clay-rich limestone combined with seawater intrusion towards the coast. A depth of investigation (DOI) index was used to constrain the information content of the images at depths up to 100 m. The VLF-EM survey identified likely faults/fractured zones across the study area. A combined analysis of the datasets of the 1D ES, 2D ERI, and VLF-EM methods identified potential zones of groundwater, the extent of seawater intrusion, and major hydrogeological structures (fracture zones) in El Salloum basin. The equivalent geologic layers suggest that the main aquifer in the basin is the fractured chalky limestone middle Miocene) south of the coastal plain of the study area. Sites likely to provide significant volumes of potable water were identified based on relatively high resistivity and thickness of laterally extensive layers. The most promising locations for drilling productive wells are in the south and southeastern parts of the region, where the potential for potable groundwater increases substantially.
Granitic rocks show a variety of engineering properties that may affect quarrying operations, tunneling, mining, slope stability and the use of rock as a construction material. The physical and mechanical properties are a function of the mineralogical and textural characteristics of the rock. The purpose of this study is to apply correlation analysis to investigate the relationships between petrographical and engineering properties of granitic rocks. A variety of granitic rock samples from different parts of Turkey were subjected to petrographic studies. The same samples were then tested to determine specific gravity, dry and saturated unit weight, water absorption, effective and total porosity, sonic velocity, Schmidt hardness, point load strength index, uniaxial compressive strength, tensile strength and modulus of elasticity. The relationships between these properties and the petrographical characteristics are described by simple regression analyses. The study revealed that the influence of the textural characteristics on the engineering properties appears to be more important than the mineralogy. It also determined that the types of contacts, grain (mineral) shape and size significantly influence the engineering properties of the granitic rocks. 相似文献
I˙stanbul, the capital of the east Roman, Byzantine and Ottoman Empires embraces two continents, one arm reaching out to
Asia, the other to Europe. It is therefore, a rich city in terms of monuments and historical cites. Shell limestones of Upper
Miocene age are used as building stone in the majority of the monuments in I˙stanbul because of their attractiveness, availability
and workability. The durability characteristics of the limestones are examined, and those factors that are responsible for
atmospheric weathering are discussed, in a humid and marine environment with important problems of urban pollution, specifically
due to traffic. In the present study weathering of the building stones were first examined in situ by macroscopic observations.
The weathering that developed as a result of environmental effects since this limestone was first used in historical monuments
has been affected 0.1–1.5 cm deep from the surface. The weathered facing stone of Şehzade Mehmed Mosque in I˙stanbul is undergoing
a program of progressive replacement. During this study, samples were taken from this monument where the shell limestone was
used. The stone surface was principally examined by means of Scanning Electron Microscopy (SEM). Petrographical and mineralogical
analyses were made by using optical microscopy and X-ray diffraction method. The physico-chemical properties of these rocks
control their weathering behaviour and reactivity. Major and trace element analyses and the effect of deterioration on the
physical properties of the limestones (unit weight, porosity and water absorption) have also been investigated. Studies on
the samples implies that weathering on the stone surface caused important variations on the physical characteristics of the
rock.
Received: 11 February 1998 · Accepted: 18 August 1998 相似文献