Your search keyword '"Hamouda, Amr"' showing total 8 results

1. The seabed characteristics of the bottom floor of Damietta Branch, Egypt, using acoustic signals.

Author

Hamouda, Amr

Subjects

OCEAN bottom, ACOUSTIC signal processing, HYDROGEN-ion concentration

Abstract

The study area lies between 31.32°N, 31.70°E and 31.41°N, 31.78°E along Damietta branch, Nile River. It is about 24-km long. Acoustic classification (Quester Tangent Corporation-QTC) is used as a powerful tool to study seabed characteristics which is confirmed by the sediment analyses. Sediment characteristics of the study are presented by three acoustic classes: sand, mud and organic matter intercalated by clay. The depth varies from about −12 m at Faraskour Bridge (southern part of the study area) to about −2.5 m at Faraskour Dam (northern part of the study area). The average current velocity is detected as 4 cm/s and it has a very low effect on the transport of both sediment and waste debris. The sediment in the northern part characterized by organic matter reaches about 70 cm thickness under and around fish cages. This huge amount of organic matter deposit leads to the reduction of the dissolved oxygen and increase pH values. This study shows that the water quality in the northern part of the study area is at risk (drinking water for Damietta city) due to the presence of the huge amount of waste debris intercalated by organic matter. The rises of temperature in summer enhance oxygen consumption and the decomposition of the organic matter. This is rapidly increasing the growth of bacteria and phytoplankton, causing turbidity and algal blooms. Those affect the water quality and raise the water toxicity (drinking water). [ABSTRACT FROM AUTHOR]

Published

2014

2. Detection of the bottom facies characteristics at El Zeit Bay, Red Sea, by using a single-beam acoustic sound.

Author

Hamouda, Amr and El-Wahhab, Mahamed

Subjects

*FACIES, *STRATIGRAPHIC geology, *OCEAN bottom, *SEDIMENTS

Abstract

El Zeit Bay is a semi-closed area with a rectangular shape which south side is connected witu northwestern side of Red Sea. The study was done to detect the characteristics of the bottom facies at El Zeit Bay. Single-beam seabed echoes combined with diving survey and sediments analyses were used to detect sea bed characteristics. The seabed floor of the study area is characterized by three physiographical distinct bottom facies; sand facies: floral facies and coral patches facies. Sand facies lies at very shallow water it extended from shore line to depth about 2 m. It has very fine sand size intercalated by mud sediments. It is characterized by very poor benthos. Floral bottom facies has medium sand which characterized by rich floral vegetation this flora appear in scattered and irregular forms. It is observed at an average depth from 4 m to 6 m. Coral patches facies is characterized by the presence of coarse sediments. The coral reef covers about 40% of the study area (29.5% hard corals and 10.5% is soft ones) while the rest of the area (60%) is characterized by different benthos. In communities general, his area characterized by high biodiversity. [ABSTRACT FROM AUTHOR]

Published

2012

3. Assessment of seismic hazards for Hurghada, Red Sea, Egypt.

Author

Hamouda, Amr

Subjects

EARTHQUAKE hazard analysis, SEISMOLOGY, EARTHQUAKES

Abstract

The entrance of the southern Suez Gulf of the Red Sea is known to be an area of high seismic activity in Egypt. The high rate of seismic activity in this area is mainly related to the adjustment in motion at the triple junction between the African plate, the Arabian plate, and the Sinai microplate. The present study attempts to estimate the Probabilistic Seismic Hazard Analysis (PSHA) for Hurghada site. This was done in two steps; the first one is by estimating specific parameters for the site, such as the mean seismic activity, λ, the Gutenberg-Richter parameter, b, and the maximum regional magnitude, m. The second step is by selecting a ground motion parameter that is applicable to Hurghada site. The procedure permits the combination of both historical and recent instrumental data. The results of the hazard assessment, expressed as the worst case scenario, detect that Hurghada is exposed to the maximum credible earthquake event of magnitude m = 7.1 ± 0.31, at hypocentral distance of 31.6 ± 10 km. The possibility of the maximum Peak Ground Acceleration (PGA), which occurred in relation to this event at Hurghada site, is equal to 0.29 g. The mean return periods with the selected accelerations for Hurghada, a horizontal acceleration of 0.1 g, is expected to occur once every 74-106 years, with an average of one every 90 years. This result which obtained from the hazard assessment can be used as an input data for a seismic risk assessment. [ABSTRACT FROM AUTHOR]

Published

2011

4. Recent evaluation of the assessment seismic hazards for Nuweiba, Gulf of Aqaba.

Author

Hamouda, Amr

Abstract

Copyright of Arabian Journal of Geosciences is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

5. Worst scenarios of tsunami effects along the Mediterranean coast of Egypt.

Author

Hamouda, Amr

Subjects

*MATHEMATICAL models, *TSUNAMIS, *TSUNAMI hazard zones, *GEOLOGIC faults, *COMPUTER simulation

Abstract

Scenarios of tsunami effects represent a very useful technique for the definition and evaluation of tsunami hazard and risk for the Egyptian coast. This paper is an attempt to develop different worst scenarios of tsunamigenesis toward the Egyptian Coast for five segment localities along three different sub-regions (Hellenic Arc, Cyprean Arc and Levantine Coast) in the eastern Mediterranean Sea. These segments are the southwest Hellenic Arc, southeast Hellenic Arc, northeast Hellenic Arc, west of Cyprean Arc and Levantine. For each of them, the scenario takes into account a seismic fault capable of generating an earthquake with magnitude equal to or larger than the highest magnitude registered in that region in historical times. Then the ensuing tsunamis are simulated numerically, highlighting the basic features of the wave propagation and roughly identifying the coastal sectors that are expected to suffer the heaviest tsunami effects. The output data indicated that the first wave of tsunamis from different segments attacked the nearest reference localities (city located nearest each segment) along the Egyptian shore between 28 and 50 min after an earthquake. Tsunamis from these earthquake scenarios produced maximum run-up heights ranging from 1.7 to 9.4 m at the shore. A Beirut Thrust scenario (Levantine segment) included the fact that only a small portion of the fault extended out into the sea, leading to a small effective tsunami source area. In contrast, the southwest Hellenic Arc segment (as in the A.D. 365 earthquake) has high displacement (15 m) and a long extensional fault, forming a highly effective tsunami source area. [ABSTRACT FROM AUTHOR]

Published

2010

6. A reanalysis of the AD 365 tsunami impact along the Egyptian Mediterranean coast.

Author

Hamouda, Amr

Abstract

The historical tsunamigenic event of 21 July AD 365 destroyed several coastal locations in the Eastern Mediterranean region. The foremost destructive impacts were recorded in Crete and Egypt. The present study re-examines the effect of location, direction, height and time of travel of the tsunami towards the Egyptian coast. Evidently, this tsunamigenic event is related to an earthquake which is identified with a Hellenic Arc subduction-zone event of great magnitude, M > 8, as manifested by up to 9 m uplift in western Crete. The maximum run-up height distribution in the front of the Nile Delta was about 9.5 m in Alexandria, while those of the neighboring cities were 7.1 m, 4.9 m, and 1.9 m at Rashid, Damietta and El-Arish, respectively. Data obtained from this study is essential to evaluate the tsunami hazards along the Egyptian coast. [ABSTRACT FROM AUTHOR]

Published

2010

7. Estuarine Habitat Assessment for Construction of a Submarine Transmission Line.

Author

Hamouda, Amr Z. and Abdel-Salam, Khaled M.

Subjects

*SURVEYS, *PIPELINES, *GASTROPODA, *BIVALVES, *POLYCHAETA

Abstract

The present paper describes a submarine survey using the acoustic discrimination system QTC VIEW (Series V) as an exploratory tool to adjust final route alignment of a new pipeline. By using acoustic sound survey as an exploratory tool described in this paper to adjust final route alignment of a new pipeline to minimize the environmental impact caused and ultimately to avoid any mitigation measures. The transmission pipeline extended from the shore line of Abu-Qir Bay, on the Mediterranean Sea in Egypt, out to 70 nautical miles at sea (60 m water depth). Four main surface sediment types were defined in the study area, namely fine sand, silty sand, silt and clay. Results of the acoustic classification revealed four acoustic classes. The first acoustic class corresponded to fine sand, absence of shell debris and very poor habitats characteristics. The second acoustic class is predominant in the study area and corresponds to the region occupied by silt. It is also characterized by intermediate diversity of macrobenthic invertebrate community which is mainly characterized by polychaeta. The third acoustic class is characterized by silt to silty clay. It is characterized by a high diversity of macrobenthic invertebrate community which is mainly polychaeta with an intermediate diversity of gastropoda and bivalvia. The final acoustic class is characterized by clay and high occurrence of shell debris of gastropoda, bivalvia and polychaeta. [ABSTRACT FROM AUTHOR]

Published

2010

8. Seismic hazard of the Eastern Mediterranean.

Author

Hamouda, Amr

Abstract

Earthquake hazard parameters such as maximum magnitude, annual mean seismic activity rate, and the Gutenberg-Richter parameter, have been evaluated for the Hellenic and Cyprean Arc regions of the Eastern Mediterranean. The applied maximum likelihood procedure permits the combination of both historical and instrumental data. The collected data from different sources cover earthquakes with magnitude ≥ 3.5 throughout the last two centuries. The historical part of the catalogue only contains the strongest events, whereas the complete part can be divided into several subcatalogues, each assumed complete above a specific threshold of magnitude. The hazard parameters assessment is performed for the two study regions. The Hellenic Arc region was found to be of higher seismicity level than the Cyprean Arc region. The number of annually expected earthquakes with magnitude ≥ 3.5 is much larger in the Hellenic Arc (56±2) than in the Cyprean Arc (35±2). The maximum magnitude calculated in the Hellenic Arc zone is 7.8±0.4 for the time period equal to the length of the catalogue, i.e., 210 years. For the Cyprean Arc zone, the maximum possible magnitude is 6.8±0.4 for the time span of 330 years. [ABSTRACT FROM AUTHOR]

Published

2006