Your search keyword '"Gulf of Suez"' showing total 788 results

1. Three‐dimensional static reservoir modelling of Kareem sandstone reservoir, Tawilla Oil Field, at the southern region of Gulf of Suez, Egypt.

Author

Othman, Adel A. A., Fathy, Mohamed, and Hashem, Mohamed E.

Subjects

*OIL fields, *PETROLEUM reserves, *GRABENS (Geology), *SEISMIC surveys, *INDUCTIVE effect, *GEOLOGICAL modeling

Abstract

The Gulf of Suez, which contains Egypt's oldest oil fields, is one of North Africa's most well‐known oil regions. There are more than 80 conventional oil fields in Egypt's Gulf of Suez, some of which have reservoirs that stretch back to the Precambrian and Quaternary. In close proximity to the southern entrance of the Gulf of Suez is the Tawilla West oilfield. The oil field Tawilla West is believed to consist of rotating fault blocks that descend in a south‐west direction. The main producing reservoirs are the Miocene section reservoirs, the Belayim and Kareem sandstones. The current research is focusing on the structural elements affecting this giant field to update the field structural model using the newly processed 3D seismic survey, the acquired data from newly drilled wells and the associated different logging techniques. The seismic information quality varied from poor to fair. The quality of the interpreted stratigraphic horizons and geological faults was mainly controlled by the seismic information quality. The research used seismic attribute analyses to improve interpretation and incorporate additional features, enabling better hydrocarbon potential identification and characterization of the reservoirs. Several geological structure contour maps and cross‐sections were generated to help in delineating and understanding the reservoir's extension. Based on the detailed correlation study, we were able to detect the faults that affected the structure of the Tawilla West field in detail, define their throw amounts and directions, and identify the missed sections across the studied area. This study introduces an updated model scenario to show the differences and their effect on the field development plan and recommendations. By examining subsurface geologic structural characteristics and evaluating petrophysical data, a 3D static reservoir model was created to resolve structural settings and hydrocarbon trapping, providing detailed information on the field and identifying new opportunities for future development. The research discovered that the updated detailed 3D structural model may support the Kareem Reservoir development plans and encourage drilling, workover and dynamic operations to assign development possibilities in the correct area. According to the established model, there are at least three options in the study's attic areas that might boost oil output and oil reserves for the field while avoiding further failures. [ABSTRACT FROM AUTHOR]

Published

2024

2. Depositional Environment, Petrophysical Evaluation and Electrical Properties of Zeit Formation, Northwestern Shore of Gulf of Suez, Egypt.

Author

Gomaa, Mohamed M. and Abd El Aziz, Emad A.

Subjects

*GAMMA rays, *THORIUM, *SEDIMENTOLOGY, *FACIES, *URANIUM, *PETROPHYSICS

Abstract

The Zeit sand reservoir is one of the most prolific formations at Northwestern side of the Gulf of Suez. In this research we will try to coordinate between electrical, petrophysical properties, dep-ositional environment and facies discrimination in order to evaluate the hydrocarbon potentiality of studied Zeit Formation. The statistical parameters for potassium (K), thorium (Th) and Th/U ratio contents have a general increase towards northwestern parts, whereas uranium (U) content has a general increase towards southeastern parts. The sandstone facies is distinguished from the other facies by its thorium content >4 ppm. U has high carbonate content (U ≽ 1 ppm). Rocks' electrical properties vary greatly depending on a number of factors. Electrical measurements were taken at frequencies range of (5 × 10−4 Hz–100 kHz) for fully saturated samples (clayey sandstone) with NaCl (20 gm/L). As salinity, clay content, and frequency increase, consequently does the electrical properties. The continental condition are present in northwestern part (back-sea) which is distinguished by high K percent, high Th, high Th/U ratio, and low U contents. Low K, Th, and Th/U ratio contents, with high U contents, characterize the marine depositional environment that existed around the east and southeastern parts (fore-sea coincide with the dipping of strata). Furthermore, the studied Zeit Formation has good petrophysi-cal properties that coincide with marine conditions. The middle and eastern parts (around ISS-94 and CSS-288) is a good reservoir (porosity 36%–39%, shale content <15%, hydrocarbon saturation 71%–92%, and net pay thickness 17–63 feet). [ABSTRACT FROM AUTHOR]

Published

2024

3. The Gulf of Suez rifting: implications from low-temperature thermochronology.

Author

Mansour, Sherif, Hasebe, Noriko, Abdelrahman, Kamal, Fnais, Mohammed S., and Tamura, Akihiro

Subjects

*SHIELDS (Geology), *MANTLE plumes, *AGE groups, *LASER ablation inductively coupled plasma mass spectrometry, *ZIRCON

Abstract

The Gulf of Suez is a continental rift basin that has been developed during the Oligocene-Miocene as a northern extension of the Red Sea rift system. The Oligo-Miocene rift-activated flanks are represented by exposures of the Neoproterozoic basement rocks of the Arabian-Nubian Shield. An additional thermal overprint (i.e. mantle plume) and the preceding tectono-thermal events that also affected the rifting dynamics and the uplift of its flanks remain uncertain. We here present thermochronological data for 20 basement samples collected from the Gabal Somr ElQaa area at the northwestern flank of the Gulf of Suez. The resulted zircon fission-track ages could be divided temporospatially into two groups: the Cambrian and the Silurian-Devonian with average ages of 503 ± 14 Ma and 407 ± 11 Ma, respectively. While apatite fission-track data reveal three different age groups of the Devonian-Carboniferous, the Permian-Triassic, and the Late Cretaceous, with average ages of 349 ± 10 Ma, 246 ± 6 Ma, and 81 ± 5 Ma, respectively. The modelled t-T histories indicate four cooling pulses during the Neoproterozoic, the Devonian-Carboniferous, the Cretaceous, and the Oligocene-Miocene. Integrating our findings with the regional tectonism and depositional records indicates that these cooling pulses could be attributed to synchronous activities of the post-accretion erosional event, the Variscan tectonic event, the Mid-Atlantic Ridge spreading, and the Gulf of Suez rifting. The Gulf of Suez is a passive rift, formed by a single and rapid rifting pulse within the framework of the Red Sea rift system. An additional east-southward far-field thermal overprint from the Arabian marginal plume partially affected the Suez rifting process. This thermal print affected only the rift’s southern portion of its eastern flank, causing syn-rift cooling ages, highly elevated rift flanks, and an increased heat flow. The western rift flank and the northern segment of the eastern flank are characterized by pre-rift cooling ages, modest rift flanks, and reduction in heat flow. [ABSTRACT FROM AUTHOR]

Published

2024

4. Infestation of the spider crab Menaethius monoceros (Epialtidae: Brachyura) from the Egyptian Red Sea coasts by Parasacculina pilosella (Polyascidae: Rhizocephala: Cirripedia

Author

Awaad A. El-Sayed, Mohamed A. Amer, Abdallah M. Abdalkhalek, Hosam A.M. El Mekawy, Ahmed I. Rady, Mahmoud A. Attallah, and Ahmed M. Hassan

Subjects

Parasacculina pilosella, Spider crab, Rhizocephala, Red Sea, Gulf of Suez, Gulf of Aqaba, Aquaculture. Fisheries. Angling, SH1-691, Environmental sciences, GE1-350

Abstract

The results of this study showed that out of 287 individuals (135 males and 152 females) of the spider crab Menaethius monoceros collected from the Red Sea and the Gulfs of Suez and Aqaba, 15 individuals (6 males and 9 females) were infected with Parasacculina pilosella (Van Kampen & Boschma, 1925) (Polyascidae: Rhizocephala: Cirripedia: Crustacea). A total of 20 externae were recorded, including 11 singles, three doubles, and only one triple on the infected crab abdomens. The overall infection rate was 5.23% for the combined sexes at all sites, declined to 4.44% in males, but increased to 5.92% in females, reaching a higher rate of 16.07% in the populations of Marsa Alam and Shalateen sectors during summer. The examined externae have variable colors, sizes, and shapes based on their sexual maturity, which has been classified into four stages: immature or virgin, early mature, maturing, and late (spent externae). The largest number of externae was eight extruded on the 3rd abdominal segment, while it decreased to six, two, and one on the 4th, 2nd and 5th segments, respectively. The size of externae varied from 1.3 × 1.0 × 1.0 to 6.3 × 4.5 × 2.5 mm (Breadth × Height × Thickness). These results showed changes in the external secondary sexual characters of the infected males, represented by the remarkable broadness of the abdomen fringed with marginal setae and invagination of the sternum, but were limited in infected females.

Published

2024

5. Digital Geomorphological Mapping of Sabkhas in the Western Gulf of Suez, Egypt.

Author

Mohamed, Mohamed El-Raei

Subjects

*GEOMORPHOLOGICAL mapping, *GEOGRAPHIC boundaries, *LANDFORMS, *REMOTE-sensing images

Published

2024

6. Integrating facies, mineralogy, and paleomagnetism to constrain the age and provenance of Paleozoic siliciclastic sedimentary rocks along the northern Gondwana margin: insights from the Araba and Naqus formations in western Gulf of Suez, Egypt.

Author

Al-Nashar, Ashraf M., Hafez, Nabil A. Abdel, El-Moghny, Mohamed W. Abd, Awad, Ahmed, Farouk, Sherif, and Ayyad, Haitham M.

Subjects

*SEDIMENTARY rocks, *MINERALOGY, *SILICICLASTIC rocks, *PALEOMAGNETISM, *PALEOZOIC Era, *HEAVY minerals, *GOETHITE, *KAOLINITE, GONDWANA (Continent)

Abstract

The depositional ages and provenance of the Paleozoic Araba and Naqus Formations along the northern Gondwanan margin in Egypt have remained uncertain due to a lack of index fossils. Resolving this issue is crucial for understanding regional geology during deposition and subsequent tectonic development. We integrate detailed facies analysis, anisotropy of magnetic susceptibility (AMS), paleomagnetism, and mineralogical data to elucidate the genesis and depositional ages of the Araba and Naqus Formations. Petrographic analyses identified seven distinct facies types, providing insights into sedimentary textures, maturity, and sources, with contributions from igneous and metamorphic sources indicated by heavy minerals. X-ray diffraction (XRD) analysis identified accessory minerals such as quartz, goethite, kaolinite, hematite, and anatase. Paleomagnetism isolated two magnetic components (CA and CN) providing the first robust paleo pole positions at Lat. = 70.8° N, Long. = 308.2° E and Lat. = 37.8° N, Long. = 233.1° E, indicating Cambrian and Carboniferous ages for the Araba and Naqus formations, respectively. Thermal demagnetization constrained these dates using established polarity timescales. Mineralogical data indicated that the Araba Formation originated from an igneous source, while the Naqus Formation had a mixed metamorphic-igneous provenance. The integrated AMS and paleomagnetic data reveal evidence of post-depositional deformation. Specifically, the clustering of maximum AMS axes in the NW–SE direction for both formations, suggests the initial presence of a primary depositional fabric. However, prevalent tectonic activity during the Cenozoic appears to have overprinted and modified this fabric through deformation related to rifting of the Gulf of Suez region. Through this novel multi-proxy approach, we have resolved long-standing uncertainties regarding the formations' depositional ages. Our study thereby provides the first chronostratigraphic framework for these strategically important sedimentary units, significantly advancing understanding of regional Paleozoic geology. [ABSTRACT FROM AUTHOR]

Published

2024

7. Infestation of the spider crab Menaethius monoceros (Epialtidae: Brachyura) from the Egyptian Red Sea coasts by Parasacculina pilosella (Polyascidae: Rhizocephala: Cirripedia.

Author

El-Sayed, Awaad A., Amer, Mohamed A., Abdalkhalek, Abdallah M., El Mekawy, Hosam A.M., Rady, Ahmed I., Attallah, Mahmoud A., and Hassan, Ahmed M.

Abstract

The results of this study showed that out of 287 individuals (135 males and 152 females) of the spider crab Menaethius monoceros collected from the Red Sea and the Gulfs of Suez and Aqaba, 15 individuals (6 males and 9 females) were infected with Parasacculina pilosella (Van Kampen & Boschma, 1925) (Polyascidae: Rhizocephala: Cirripedia: Crustacea). A total of 20 externae were recorded, including 11 singles, three doubles, and only one triple on the infected crab abdomens. The overall infection rate was 5.23% for the combined sexes at all sites, declined to 4.44% in males, but increased to 5.92% in females, reaching a higher rate of 16.07% in the populations of Marsa Alam and Shalateen sectors during summer. The examined externae have variable colors, sizes, and shapes based on their sexual maturity, which has been classified into four stages: immature or virgin, early mature, maturing, and late (spent externae). The largest number of externae was eight extruded on the 3rd abdominal segment, while it decreased to six, two, and one on the 4th, 2nd and 5th segments, respectively. The size of externae varied from 1.3 × 1.0 × 1.0 to 6.3 × 4.5 × 2.5 mm (Breadth × Height × Thickness). These results showed changes in the external secondary sexual characters of the infected males, represented by the remarkable broadness of the abdomen fringed with marginal setae and invagination of the sternum, but were limited in infected females. [ABSTRACT FROM AUTHOR]

Published

2024

8. Quantitative analysis for fishery of Large-Shrimp (Penaeus japonicus, Penaeus semisulcatus and Penaeus latisulcatus) in the Gulf of Suez, Red Sea.

Author

Harby-Rashed, Alaa, El-Sherbeny, Asaar S.H., El-Sabbagh, Mohamed S.A., and Yousif, A.

Abstract

Data on catch and effort for 39 fishing seasons of the Large-Shrimp category were collected from the General Authority for Fisheries Resource Development, Suez Office (GAFRD). Fishery of Large-Shrimp in the Gulf of Suez suffers from severe growth and recruitment overfishing. The catch maximum sustainable yield (CMSY++) method was applied to estimate the biological reference points for scientific rebuilding and management of Large-Shrimp fishery in the Gulf of Suez. The catchability coefficient of the commercial bottom trawl net is high (q = 9.62). The intrinsic increase rate of the fishery is relatively high, (r = 0.28 y−1). In the healthy state, values of the carrying capacity (K), maximum sustainable yield (MSY), and fishing mortality for MSY (F MSY) are 6050 tons, 429 tons, and 0.141 y−1 respectively. Consequently, it is suggested that the fishery of Large-Shrimp may be rebuilt in three seasons if exploitation is stopped. There is thus a good opportunity for a safe wide range of management strategy alternatives while avoiding bad effects for fishermen. [ABSTRACT FROM AUTHOR]

Published

2024

9. Enhanced groundwater availability through rainwater harvesting and managed aquifer recharge in arid regions.

Author

Abd-Elaty, Ismail, Kuriqi, Alban, Ahmed, Ashraf, and Ramadan, Elsayed M.

Subjects

ARID regions, GROUNDWATER recharge, WATER harvesting, WATER management, SUSTAINABILITY, GROUNDWATER, WATER shortages

Abstract

Climate change in desert areas and semi-arid watersheds may offer a promising solution for the water scarcity problem that Bedouins and local inhabitants face. This study investigated the integrated water resources management in arid and semi-arid regions using rainwater harvesting in combination with the managed aquifer recharge (RWH-MAR) technique. The study also used recharge wells and storage dams to achieve the sustainability of groundwater supplies in the context of climate change and management of the flow to the Gulf of Suez. Therefore, different return periods of 10, 25, 50, and 100 years were considered for the annual flood volume resulting from those watersheds. Moreover, hydrologic modeling was carried out for the El Qaa plain area, South Sinai, Egypt, using the Watershed Modeling System (WMS) and the groundwater modeling of SEAWAT code. Our findings show that for different scenarios of climate change based on return periods of 10, 25, 50, and 100 years, the aquifer potentiality reached 24.3 MCM (million cubic meters) per year, 28.8 MCM, 36.7 MCM, and 49.4 MCM compared to 21.7 MCM at 2014 with storage of groundwater ranges 11.8%, 32.1%, 69%, and 127.4%, respectively. These findings have significant implications for the system of RWH-MAR and groundwater sustainability in El Qaa Plain, South Sinai. The RWH-MAR proved to be an effective approach that can be applied in different water-stressed and arid regions to support freshwater resources for sustainable future development and food security, as well as protect communities from extreme flash flood events. [ABSTRACT FROM AUTHOR]

Published

2024

10. Reservoir rock typing for optimum permeability prediction of Nubia formation in October Field, Gulf of Suez, Egypt.

Author

Kassab, Mohamed A., Abbas, Ali E., Osman, Ihab A., and Eid, Ahmed A.

Subjects

RESERVOIR rocks, BOOSTING algorithms, PERMEABILITY, MACHINE learning, ARTIFICIAL intelligence

Abstract

Permeability prediction and distribution is very critical for reservoir modeling process. The conventional method for obtaining permeability data is from cores, which is a very costly method. Therefore, it is usual to pay attention to logs for calculating permeability where it has massive limitations regarding this step. The aim of this study is to use unique artificial intelligence (AI) algorithms to tackle this challenge and predict permeability in the studied wells using conventional logs and routine core analysis results of the core plugs as an input to predict the permeability in non-cored intervals using extreme gradient boosting algorithm (XGB). This led to promising results as per the R2 correlation coefficient. The R2 correlation coefficient between the predicted and actual permeability was 0.73 when using the porosity measured from core plugs and 0.51 when using the porosity calculated from logs. This study presents the use of machine-learning extreme gradient boosting algorithm in permeability prediction. To our knowledge, this algorithm has not been used in this formation and field before. In addition, the machine-learning model established is uniquely simple and convenient as only four commonly available logs are required as inputs, it even provides reliable results even if one of the required logs for input is synthesized due to its unavailability. [ABSTRACT FROM AUTHOR]

Published

2024

11. Integrated stratigraphical, hydrogeochemical, and geophysical studies to characterize the shallow groundwater aquifers in Wadi Araba area, western Gulf of Suez, Egypt

Author

Zenhom E. Salem, Maha Abdelazeem, Mohamed Mostafa Khalifa, and Mohamed Sobhy Fathy

Subjects

Wadi Araba, Nubian sandstone aquifer, Carbonate sediments, Aquifer quality, Magnetic tomography, Gulf of Suez, Water supply for domestic and industrial purposes, TD201-500

Abstract

Abstract The construction of the New Galala City besides great mining (e.g., konoozmisr) and Seawater Reverse Osmosis Desalination Plant projects in the semiarid Gulf of Suez region of Egypt increases the demand for groundwater resources. So, the current research provides integrated stratigraphical, hydrogeochemical, and geophysical studies to investigate the shallow groundwater aquifers in Wadi Araba area on the western side of the Gulf of Suez. The stratigraphic column starts with pre-Cambrian basement rocks which are non-conformably overlain by sedimentary succession of Phanerozoic Erathem. A detailed land magnetic profile has been conducted and processed to estimate the aquifer’s geometrical parameters. This includes the subsurface spatial extension and thickness to delineate the prevailed subsurface structures in the study area. Lithostratigraphically, these aquifers are represented by the Paleozoic- lower Cretaceous siliciclastic-dominated sediments of the Nubia Group and fractured carbonate-dominated facies of the upper Cretaceous Galala Formation. Lithological characters, sedimentary facies (fluvial to shallow and open marine), microfacies types, and diagenesis processes (e.g., compaction, cementation, dissolution, and fracturing) are the main factors that affect the quality of the shallow aquifers in the study area. The main microfacies of the studied aquifers are quartz arenite, subarkose, sublitharenite, mudstone/wackestone, and packstone/grainstone. These facies are characterized by different primary and secondary porosities. According to the water sampling standard methods, nineteen groundwater samples were collected from the available hand-dug wells and springs from the Nubian sandstone aquifer and the Upper Cretaceous aquifer, respectively. Inductively coupled plasma–mass spectrometry (ICP–MS), titration, spectrophotometer and a flame photometer were used to obtain a complete chemical analysis. The results of hydrochemical analyses indicated that total dissolved solids (TDS) and concentrations of major ions as well in the lower Cretaceous aquifer increase toward the Gulf of Suez and in general higher than that of springs of the Upper Cretaceous Aquifer. The predominant factors influencing groundwater chemistry include seawater intrusion, evaporation, mineral alteration, dissolution of fossils, and ion exchange. Groundwater in the study area is unsuitable for drinking except in one sample and moderately suitable for irrigation with caution for higher salinity in samples located near the Gulf of Suez.

Published

2024

12. Modeling environmental sensitivity and risk assessment of PAHs in sediments along two marine coastal areas in Egypt

Author

Muhammad A. El-Alfy

Subjects

Polycyclic aromatic hydrocarbons (PAHs), Modeling, Sensitivity, Gulf of Suez, And Mediterranean sea, Oils, fats, and waxes, TP670-699, Petroleum refining. Petroleum products, TP690-692.5

Abstract

Modeling the environmental sensitivity index (ESI) is vital in the planning and management processes, especially along the coastal areas. The main objectives of the study were to define the main sources of polycyclic aromatic hydrocarbons (PAHs), establish an ESI model, and measure the risk of PAHs on humans and the environment using various equations. The methodology of the research involved analyzing PAHs according to the EPA 550 methodology in sediments of the coastline in two important coastline areas in Egypt, namely the Gulf of Suez and the Mediterranean Sea, modeling the sensitivity of PAHs using ArcGIS 10.5 by integrating different physical, biological, and land use/cover factors, identifying the sources, and performing a risk assessment. Nine sediment samples were collected from each area. The produced sensitivity map could explain the highly sensitive areas along the Mediterranean Sea and Gulf of Suez coastlines (especially areas that were near drains' outlets, industrial sites, and sea ports). The highest mean PAH concentrations were Acenaphthylene and Fluorine in the Mediterranean Sea and Suez Gulf, respectively. It's obvious that the individual PAH concentrations were within the ERL, ERM, and PEL threshold limits, indicating no adverse biological impacts. The ratios of BaA/BaA + Chy, Flu/Flu + Py, and Ant/Ant + Phe gave an indication that most PAH sources were petrogenic (63.64%) and others (36.36%) were from petroleum combustion. The principle component analysis (PCA) indicated a diverse correlation among the isomer ratios and LU/LC activities. The carcinogenic risk values were in the very low category (

Published

2024

13. The history of palynology in Egypt.

Author

Soliman, Ali and El Atfy, Haytham

Subjects

*PETROLEUM prospecting, *DINOFLAGELLATE cysts, *ORGANIC geochemistry, *PALYNOLOGY, *BIOSTRATIGRAPHY, EGYPTIAN history

Abstract

This contribution marks the achievements made in the past decades by a group of mainly Egyptian palynologists. The data generated covers a long-time span from the Precambrian to the Holocene of Egypt. Previously published results are devoted primarily to the study of many exploration wells and outcrop sections. Comprehensive studies were carried out on a range of palynomorph groups including spores and pollen, algae and prasinophytes, dinoflagellate cysts, acritarchs, scolecodonts, chitinozoans, and other miscellaneous forms as well as palynofacies. Particular attention is given to the history of palaeopalynology. This study has identified three main phases. The results of the first phase were limited, as the knowledge of palynology in Egypt was poorly known from 1959 until 1979. Between 1980 and 2000, which represents the second or shaping phase, an intensive study of surface and subsurface material was carried out. The third phase (2000 until now) provides the academic and commercial expansion of palynological research in Egypt, where palynology can have immediate application in petroleum exploration studies. In the first phase, the application of palynology was seriously hampered by the limited extent of the published data. Only 27 works emerged by the end of 1979. A considerable acceleration was noted in the second phase when palynological research was established in many national institutions and started to play a considerable role in petroleum exploration. Beyond academia, some of the operating oil companies started to set up palynological laboratories and staff as part of biostratigraphy teams. These included, for example, GPC, Khalda Petroleum Company with a focus on the north Western Desert, and GUPCO with a focus on the Gulf of Suez, and most of the results obtained were incorporated with the internal data on the well files. During the period 2000–2009, especially when palynofacies studies were incorporated, the progress and the direction of palynological research changed. This allowed for a more accurate reconstruction of the depositional process and eventually a palaeobiogeographical history mainly for the Cretaceous, which is an important target for hydrocarbon exploration in Egypt. From 2010 onwards, the number of publications has clearly grown and reached 23 publications in 2020. Such a high pace of development seems to have been at the expense of basic research comprising taxonomy and biostratigraphy, something that might negatively impact the quality of research and also researchers, especially early career researchers. The change brought about through this phase by integrating organic geochemistry, sedimentology, and other disciplines may, however, have left a positive impact, principally in terms of international collaborations and expansion of palynological applications beyond the standard academic cluster. Important highlights and outputs, and prospective forthcoming developments and recommendations pertaining to Egyptian palynology generally (and in each phase) are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

14. The implications of structural control on the miocene carbonate reservoirs of Bakr-Al Hamd oil fields, Gulf of Suez.

Author

Sayed, Mayada, Salim, Sadek, El Araby, Abdel Moneim, and Hammed, Mohamed

Subjects

OIL fields, MIOCENE Epoch, CARBONATE reservoirs, REEFS, STRUCTURAL models, BROWNFIELDS, FACIES

Abstract

The present work aims to provide a tectonostratigraphic model of the Miocene carbonate reservoirs accumulated in Bakr-Al-Hamd ridge to help unlock an estimated statistical yet-to-find over 10 MMbbl of oil. The structural ridge is located in the western central Gulf of Suez and the hydrocarbon exploration within this NE-dipping structural high began in 1951. The model integrated several interpreted 3-D seismic volumes and their attributes, a complete set of well-log data, borehole images, and the resultant extensional structures from the natural and physical models. The structural model proposed the following: (1) a major gulf-parallel curved and faulted detachment between the two differentially strained sections of Miocene and Pre-Miocene sediments which were distinguished by seismic attributes and confirmed by borehole images, (2) the synthetic Gulf-parallel faults which represent footwall collapsing structural style of extensional faults, delineated Al Hamd Miocene Nullipore carbonate reservoir, (3) south-westward dislocation of the western gulf-parallel boundary fault of Al Hamd Nullipore facies and its allocation at the present-day shoreline, (4) three classification of the Miocene carbonate reef were interpreted; fringe reef in Bakr ridge, barrier reef in Al-Hamd, and patch reef in the intra-field. The achievements of the present study prompted exploration activity and two discoveries were announced in 2021 and 2022 in the vicinity of Bakr and Al-Hamd intra-fields. The recent discoveries penetrated more than 200 m of Miocene carbonate reef and dolomitic reservoirs accumulated on the detachment surface. The present study workflow could be used in similar petroliferous rift basins to maximize hydrocarbon resources, enhance production performance, and revive brownfields. [ABSTRACT FROM AUTHOR]

Published

2024

15. Improving permeability prediction via Machine Learning in a heterogeneous carbonate reservoir: application to Middle Miocene Nullipore, Ras Fanar field, Gulf of Suez, Egypt.

Author

Khalid, Mostafa S., Mansour, Ahmed S., Desouky, Saad El-Din M., Afify, Walaa S. M., Ahmed, Sayed F., and Elnaggar, Osama M.

Subjects

PETROPHYSICS, MACHINE learning, CARBONATE reservoirs, COALBED methane, PERMEABILITY, MIOCENE Epoch, PROBABILITY density function, RANDOM forest algorithms

Abstract

Predicting and interpolating the permeability between wells to obtain the 3D distribution is a challenging mission in reservoir simulation. The high degree of heterogeneity and diagenesis in the Nullipore carbonate reservoir provide a significant obstacle to accurate prediction. Moreover, intricate relationships between core and well logging data exist in the reservoir. This study presents a novel approach based on Machine Learning (ML) to overcome such difficulties and build a robust permeability predictive model. The main objective of this study is to develop an ML-based permeability prediction approach to predict permeability logs and populate the predicted logs to obtain the 3D permeability distribution of the reservoir. The methodology involves grouping the reservoir cored intervals into flow units (FUs), each of which has distinct petrophysical characteristics. The probability density function is used to investigate the relationships between the well logs and FUs to select high-weighted input features for reliable model prediction. Five ML algorithms, including Linear Regression (LR), Polynomial Regression (PR), Support Vector Regression (SVR), Decision Trees (DeT), and Random Forests (RF), have been implemented to integrate the core permeability with the influential well logs to predict permeability. The dataset is randomly split into training and testing sets to evaluate the performance of the developed models. The models' hyperparameters were tuned to improve the model's prediction performance. To predict permeability logs, two key wells containing the whole reservoir FUs are used to train the most accurate ML model, and other wells to test the performance. Results indicate that the RF model outperforms all other ML models and offers the most accurate results, where the adjusted coefficient of determination (R2adj) between the predicted permeability and core permeability is 0.87 for the training set and 0.82 for the testing set, mean absolute error and mean squared error (MSE) are 0.32 and 0.19, respectively, for both sets. It was observed that the RF model exhibits high prediction performance when it is trained on wells containing the whole reservoir FUs. This approach aids in detecting patterns between the well logs and permeability along the profile of wells and capturing the wide permeability distribution of the reservoir. Ultimately, the predicted permeability logs were populated via the Gaussian Random Function Simulation geostatistical method to build a 3D permeability distribution for the reservoir. The study outcomes will aid users of ML to make informed choices on the appropriate ML algorithms to use in carbonate reservoir characterization for more accurate permeability predictions and better decision-making with limited available data. [ABSTRACT FROM AUTHOR]

Published

2024

16. Integrated stratigraphical, hydrogeochemical, and geophysical studies to characterize the shallow groundwater aquifers in Wadi Araba area, western Gulf of Suez, Egypt.

Author

Salem, Zenhom E., Abdelazeem, Maha, Khalifa, Mohamed Mostafa, and Fathy, Mohamed Sobhy

Subjects

AQUIFERS, AQUIFER pollution, SALINE water conversion, SALTWATER encroachment, GROUNDWATER, WELLS, REVERSE osmosis

Abstract

The construction of the New Galala City besides great mining (e.g., konoozmisr) and Seawater Reverse Osmosis Desalination Plant projects in the semiarid Gulf of Suez region of Egypt increases the demand for groundwater resources. So, the current research provides integrated stratigraphical, hydrogeochemical, and geophysical studies to investigate the shallow groundwater aquifers in Wadi Araba area on the western side of the Gulf of Suez. The stratigraphic column starts with pre-Cambrian basement rocks which are non-conformably overlain by sedimentary succession of Phanerozoic Erathem. A detailed land magnetic profile has been conducted and processed to estimate the aquifer's geometrical parameters. This includes the subsurface spatial extension and thickness to delineate the prevailed subsurface structures in the study area. Lithostratigraphically, these aquifers are represented by the Paleozoic- lower Cretaceous siliciclastic-dominated sediments of the Nubia Group and fractured carbonate-dominated facies of the upper Cretaceous Galala Formation. Lithological characters, sedimentary facies (fluvial to shallow and open marine), microfacies types, and diagenesis processes (e.g., compaction, cementation, dissolution, and fracturing) are the main factors that affect the quality of the shallow aquifers in the study area. The main microfacies of the studied aquifers are quartz arenite, subarkose, sublitharenite, mudstone/wackestone, and packstone/grainstone. These facies are characterized by different primary and secondary porosities. According to the water sampling standard methods, nineteen groundwater samples were collected from the available hand-dug wells and springs from the Nubian sandstone aquifer and the Upper Cretaceous aquifer, respectively. Inductively coupled plasma–mass spectrometry (ICP–MS), titration, spectrophotometer and a flame photometer were used to obtain a complete chemical analysis. The results of hydrochemical analyses indicated that total dissolved solids (TDS) and concentrations of major ions as well in the lower Cretaceous aquifer increase toward the Gulf of Suez and in general higher than that of springs of the Upper Cretaceous Aquifer. The predominant factors influencing groundwater chemistry include seawater intrusion, evaporation, mineral alteration, dissolution of fossils, and ion exchange. Groundwater in the study area is unsuitable for drinking except in one sample and moderately suitable for irrigation with caution for higher salinity in samples located near the Gulf of Suez. [ABSTRACT FROM AUTHOR]

Published

2024

17. The impact of Oligo-Miocene basaltic intrusions on the petroleum system in Gulf of Suez rift basin, Egypt: new insights into thermal maturity and reservoir quality.

Author

Elmaadawy, Khaled G., Bayan, Mahmoud F., Gad, Mohamed, Szűcs, Péter, Eid, Mohamed Hamdy, Abukhadra, Mostafa R., El-Sherbeeny, Ahmed M., Bellucci, Stefano, Abdelmaksoud, Ashraf S., Eun Young Lee, and Farouk, Sherif

Subjects

PETROLEUM, PETROLEUM reservoirs, BASALT, PETROLEUM industry, FIELD research, WATERSHEDS

Abstract

In recent years, the petroleum industry has prioritized the exploration of new and unconventional petroleum reservoirs. As a result, this study assessed the significance of basaltic intrusions from two key aspects: their impact on the thermal maturity of pre-rift source rocks and their potentiality as reservoirs. The present study attempts to integrate surface field investigations of basaltic dykes in Wadi Nukhul and Wadi Matulla as surface analogs with petroleum system modeling of pre-rift source rocks containing subsurface basaltic intrusions in the Abu Rudeis-Sidri field. Therefore, the fracture networks were observed in Wadi Nukhul and Wadi Matulla, suggesting that both the basaltic dykes and host rocks have interconnected fractures, which is critical for a high-quality reservoir of the dykes and efficient oil expulsion. As a result, the analysis of burial history, temperature, maturity, generation, transformation ratio, and expelled oil quantity revealed a significantly high value for basaltic intrusions. Moreover, the Abu Rudeis-Sidri field had a good petroleum system with thermally mature source rocks by basaltic intrusions. Furthermore, the fractured basaltic intrusions presented a high-quality oil reservoir well-sealed by the thick Rudeis Formation. Oil production has doubled since the discovery of this reservoir. This study introduces a novel approach to understanding the distribution pattern of basaltic intrusions in subsurface and surface analogs, which can serve as a model for exploring new potential unconventional basaltic reservoirs in the Gulf of Suez rift basin. [ABSTRACT FROM AUTHOR]

Published

2024

18. Investigation of geothermal resources using a geophysical potential field in the Hurghada area, Egypt.

Author

Elbarbary, Samah, Abdel Zaher, Mohamed, Marzouk, Hossam, and Arafa-Hamed, Tarek

Subjects

*GEOTHERMAL resources, *CURIE temperature, *HOT springs, *WATER springs, *CLEAN energy, *MAGNETIC susceptibility

Abstract

Egypt's need for clean and renewable energy is pressing for numerous reasons, such as unpredictable fuel prices, diminishing fossil fuel resources, and growing concern about environmental degradation. Harvesting untapped geothermal resources could meet domestic electricity needs besides enabling Egypt to export electricity. The location of Egypt confirms that it has suitable geothermal energy potential areas in some provinces around the country, especially along the Gulf of Suez, the Red Sea, and the Western Desert. The Red Sea coast and the coasts of the Gulf of Suez exhibit several surface manifestations (hot springs and thermal water wells), indicating the presence of geothermal systems in these areas. The objective of this paper is to investigate the geothermal resources and obtain a full image of the geothermal potential of the Hurghada area along the Red Sea coast using geophysical potential field data. Aeromagnetic and aerogravity data were used to identify the most promising target regions for geothermal potentiality. Power spectral analysis of the aeromagnetic data was utilised to appraise the Curie point depth (CPD) and obtain geothermal gradient and heat flow maps of the Hurghada area, whereas a 3-D inversion of gravity data was utilised to estimate the depths to the Precambrian basement rocks. In addition to 3-D inversion of magnetic data to evaluate the spatial distribution of magnetic susceptibility. This study found no direct relationship between basement depths and the CPD, where basement rock outcrops at some locations correlate to a decrease in the Curie surface, while at others, they correspond to an increase. [ABSTRACT FROM AUTHOR]

Published

2024

19. Seasonal Variations of Some Heavy Metals in Seawater and Soft Tissues of the Bivalve Brachidontes pharaonis from the Gulf of Suez, Egypt.

Author

Ragab, Hedaya, El-Tantawi, Hala, Meselhy, Khaled M., and Emam, Waheed M.

Subjects

*HEAVY metals, *COPPER, *BIVALVES, *MYTILIDAE, *SEAWATER

Abstract

Levels of some heavy metal ions were determined in water samples of marine mussels Brachidontes pharaonis collected from the shoreline of the National Institute of Oceanography and Fisheries (NIOF), the Gulf of Suez, Egypt, during the period from June 2019 to May 2020. The objective of the present study was to analyze the seasonal concentrations of some heavy metals (Fe, Co, Ni, Cu, Zn, Pb, Mn, and Cd) that have environmental and health interests in the Gulf of Suez using the bivalve Brachidontes pharaonis (Fischer, 1876) as a biological monitor. The samples were collected seasonally from the site and divided into three size groups. The analyses for the detection of the selected metal concentrations were carried out by flame atomic absorption spectrophotometer. The results showed that the mean concentrations of heavy metals in water were 0.07, 0.64, 0.71, 4.66, 0.26, 0.08, 12.40, 0.07µg/L for Cd, Pb, Cu, Zn, Ni, Co, Fe, and Mn, respectively. With regards to assessed metals in the soft tissues, an inverse relationship was found between metal concentration and bivalve size. According to the collected data, the present study area was varied between low to moderate contamination. This change occurred in conjunction with the increase of industrial activities around the study area. [ABSTRACT FROM AUTHOR]

Published

2024

20. Mapping oil pollution in the Gulf of Suez in 2017–2021 using Synthetic Aperture Radar

Author

Islam Abou El-Magd, Mohamed Zakzouk, Elham M. Ali, Abdulaziz M Abdulaziz, Amjad Rehman, and Tanzila Saba

Subjects

Gulf of Suez, Oil spills, SAR images, Image processing, Geodesy, QB275-343

Abstract

The Gulf of Suez region accommodates diverse activities, including oil exploration and production, recreational activities, and export and import ports. The Gulf region is exposed to pollution risks due to these interactions, with few research studies documenting these pollution cases. This research aimed to use Synthetic Aperture Radar (SAR) satellite data to detect and map all the oil pollution incidents within the geographical extent of the Gulf of Suez that occurred from 2017 to 2021, locating the most affected regions and possible sources of pollution. It enabled the detection and mapping of nearly 150 oil spill incidents that occurred over 67 dates during the study period and covered 851 km2 of the sea surface. The year 2018 recorded the greatest pollution area over the study period, with 201 km2. Along the Gulf coast, Suez, Ain Sokhna, and Ras Ghareb cities recorded the highest number of marine pollution incidents. The research also located seven sources of pollution that frequently discharge into the Gulf water without regulations. This research recommends implementing a real-time monitoring system for oil pollution to robustly detect any future oil incidents in these high-risk areas as quickly as possible and minimize their environmental impact.

Published

2023

21. Sedimentology and sequence stratigraphy of shallow and deeper marine Miocene deposits: A case study from the St. Paul and Gebel El-Zeit blocks, Gulf of Suez, Egypt.

Author

El-Azabi, Mounir H.

Subjects

*SEQUENCE stratigraphy, *MARINE sediments, *FACIES, *SEDIMENTOLOGY, *GRABENS (Geology), *SUBMARINE fans, *CLIMATE change, *TIDAL flats, *ROCK slopes

Abstract

Marginal and deeper marine facies typify the Miocene exposures along the western margin of the Gulf of Suez rift basin. The stratigraphic setting of these facies is a subject of debate and confusing at best. Integrative sedimentological and sequence stratigraphic study of successions exposed in the St. Paul and El-Zeit blocks provides insight into the lateral relationships between the two facies and their evolution, a topic that is not fully understood. The St. Paul block, located at the basin margin, has thin shallow marine facies, while the succession of El-Zeit block, situated near the basin axis, consists of basal conglomerates, thin shallow marine carbonates, thick deeper marine shale and marginal evaporites. The facies architecture of these successions is interpreted as belonging to two different depositional models: a fan-delta/lagoon system followed upwards by an alluvial fans/sabkha-tidal flat system in the St. Paul hangingwall basin, and carbonate-siliciclastic-evaporite systems on the hangingwall dip-slope ramp of El-Zeit block. These models may help understanding the sedimentary history of other similar blocks in the rift basin. The studied facies show many striking features such as deposition during tilting of fault block, abrupt facies and thickness variations, coarse clastic shedding, erosion channel filling, onlapping of high standing blocks and evaporite accumulation. These features are the result of major tectonic events that triggered the formation of unconformities at different hierarchical levels during the late early to middle Miocene. These unconformities subdivide the Miocene facies into five depositional sequences separated by basin-wide erosional boundaries. This division greatly improves the age control of marginal marine facies. It affords new insight into the evolution of marginal marine facies along the western margin of the basin in relation to deeper facies in the basin centre. Facies and thickness changes in these tectonically induced sequences indicate that basin floor irregularities, subsidence rates, climatic changes, variable sediment influx, sea-level/brine-level changes and basin isolation/connection to the Mediterranean Sea are also important factors responsible for their evolution. [ABSTRACT FROM AUTHOR]

Published

2024

22. Exploring carbonate reservoirs potential, north Egypt.

Author

RADWAN, Mohamed Said, GOBASHY, Mohamed, DAHROUG, Said, and RASLAN, Samir

Subjects

*CARBONATE reservoirs, *CARBONATES, *CARBONATE minerals, *PETROLEUM reserves, *OIL fields, *POROSITY

Abstract

Carbonate reservoirs contain a significant portion of the world's oil reserves. The Middle East is home to many of these reservoirs. Carbonate reservoirs can be found in a few very large oil fields, including Egypt's Zohr field, the largest conventional gas field in Egypt. In this article, we present a couple of successful tertiary carbonate reservoirs that are bearing hydrocarbon in the Egyptian Western Desert and Gulf of Suez provinces, they are distributed across Egypt's subsurface, and they are characterized by heterogeneous porosity and permeability. These heterogeneities are caused by the wide spectrum of tectonostratigraphic environments in which carbonates are deposited and by subsequent diagenetic alteration of the original rock fabric. The structural analysis of the study areas based on the interpretation of both geophysical and geological data, in JD, Abu Sennan, and the North Amer areas in the Western Desert and offshore Gulf of Suez respectively showed that tectonostratigraphic history during tertiary time affected a great extent carbonate reservoir quality. Major fault trends formed secondary fracture porosity possibly allowing hydrothermal solutions to pass through the reservoirs and form secondary vuggy porosity. These characteristics are considered important factors of promising carbonate reservoirs. In this study, several carbonate reservoirs have been outlined. The study workflow helped us better identify carbonate prospects with high fractured density. [ABSTRACT FROM AUTHOR]

Published

2024

23. Length-based estimates of growth parameters and population structure of Siganus rivulatus (Forsskål, 1775) from the Gulf of Suez, Red Sea, Egypt.

Author

Osman, Hanan M., El Ganainy, Azza A., Shalloof, Kariman A. Sh., and El-Betar, Tamer A.

Subjects

*PARAMETERS (Statistics), *SIZE of fishes, *FISH mortality, *BODY weight, *FISHERY management, *CYCLIC fatigue

Abstract

Siganus rivulatus is an economic species that has been proven to move from the Red Sea to the Mediterranean region via the Gulf of Suez and its vital canal. Clarifying the current status of this species in the Gulf of Suez is the goal of the current study. 1161 individuals (10-24 cm of total length) were collected and examined during the 2022 fishing season from Attaka fishing harbor, Suez. The distribution of length frequency indicated the predominance of small sizes (12 and 13 cm). Body weight and length indicated an isometric growth pattern. Body girth and length were found to be correlated significantly with a linear relationship (r2= 0.824). The overall mean value of the condition factor (1.25) referred to a suitable habitat for growth. Four age groups were observed where 65% and 33.7% of the population belonged to the first and the second age groups, respectively. Von Bertalanffy growth parameters were estimated as 29.2 cm, 0.373y-1 and -0.902y-1 for L¥, K and t0, respectively. The growth performance index (Ø= 2.50) expresses a good fit for habitat. Mortality coefficients indicated a high value of fishing mortality (F=1.62 y-1), exceeding the biological reference points. The length at first capture (14.90 cm) was less than that of first maturity (17.90 cm) and the optimum length (17.71 cm). The exploitation rate's value (E= 0.69) confirmed the state of over-exploitation. The study recommended tightening control over landing points, preventing the fishing of illegal sizes, and also reducing fishing effort with a rate of 46.4% to preserve the stock. [ABSTRACT FROM AUTHOR]

Published

2024

24. Occurrence and Public Health Importance of Ascaridoid Nematodes in Red Porgy, Pagrus pagrus (Perciformes: Sparidae).

Author

Abd El-Ghany, Amany M., Mahmoud, Abdallah F. A., El-Atabany, Adel I. M., and Attia, Salwa M. A.

Subjects

PAGRUS, NEMATODES, SPARIDAE, PERCIFORMES, MARINE fishes, SEAFOOD markets, FISH parasites

Abstract

Anisakid nematodes have been found in a variety of marine fishes worldwide and they are known to cause anisakiasis and allergic symptoms in human. One-hundred and five fish specimens of different sizes of red porgy (Pagrus pagrus) were collected randomly from Sharkia fish markets originating from the Gulf of Suez, Red Sea, Egypt and examined for the presence of ascaridoid nematodes. The overall prevalence of ascaridoids was 36.19% (38/105). Four morphotypes belonging to two genera of anisakid nematodes (Anisakis type I and Terranova type II larvae) as well as one genus of raphidascarid; Hysterothylacium (larvae and adult) were reported during this study. Hysterothylacium larvae were the most predominant species (23.81%) and abundance value =1.68. Interestingly, Pagrus pagrus was found as new host and locality records for larvae of Terranova type II. The results revealed a significant statistical correlation between fish length and number of the recovered ascaridoid nematodes (rs= 0.244, P < 0.05). There was a positive correlation between the host length and presence of Anisakis type I L3 (rs=0.276, P < 0.001). Significant differences were observed between the occurrence of Terranova type II L3 and Hysterothylacium L3 occurrence (rs= 0.388, P < 0.001) and adult (rs= 0.442, P < 0.001). In addition, a highly significant relationship was observed between the presence of Hysterothylacium L3 and adult (rs= 0.428, P < 0.001). Furthermore, the obtained results were lower than the recommended Egyptian standards (-100 parasites/fish), demonstrating that human health risk through consumption of fish flesh is not possible. [ABSTRACT FROM AUTHOR]

Published

2023

25. Structural lineament analysis of the Bir El-Qash area, Central Eastern Desert, Egypt, using integrated remote sensing and aeromagnetic data.

Author

Mohamed, Waheed H., Elyaseer, Mahmoud H., and Sabra, Mohamed Elsadek M.

Subjects

*REMOTE sensing, *PRINCIPAL components analysis, *GEOLOGICAL time scales, *DESERTS, *DIGITAL elevation models, *GEOLOGICAL modeling

Abstract

The Bir El-Qash area, located in the Central Eastern Desert of Egypt, is characterized by a diverse range of igneous, metamorphic, and sedimentary rocks with ages spanning from the Late Proterozoic to Quaternary. Integration of remote sensing with aeromagnetic data was conducted to generate surface and subsurface structural lineaments. Shaded relief from digital elevation models, principal component analysis of Landsat-8 data, and ALOS/PALSAR images were utilized to create lineament maps. Airborne magnetic data were employed to reveal subsurface characterizations. The study area has undergone various tectonic activities, resulting in complex structures. Multiple fault trends and fractures were identified, including the NW–SE (Red Sea-Gulf of Suez) trend, the NE–SW trending Syrian arc trend, the N–S trending East African trend and the WNW–ESE trend. By analyzing the tectonic features of the Bir El-Qash area, this study provides insights into the geological history and evolution of the Eastern Desert of Egypt. [ABSTRACT FROM AUTHOR]

Published

2023

26. Mapping oil pollution in the Gulf of Suez in 2017–2021 using Synthetic Aperture Radar.

Author

El-Magd, Islam Abou, Zakzouk, Mohamed, Ali, Elham M., Abdulaziz, Abdulaziz M, Rehman, Amjad, and Saba, Tanzila

Abstract

The Gulf of Suez region accommodates diverse activities, including oil exploration and production, recreational activities, and export and import ports. The Gulf region is exposed to pollution risks due to these interactions, with few research studies documenting these pollution cases. This research aimed to use Synthetic Aperture Radar (SAR) satellite data to detect and map all the oil pollution incidents within the geographical extent of the Gulf of Suez that occurred from 2017 to 2021, locating the most affected regions and possible sources of pollution. It enabled the detection and mapping of nearly 150 oil spill incidents that occurred over 67 dates during the study period and covered 851 km2 of the sea surface. The year 2018 recorded the greatest pollution area over the study period, with 201 km2. Along the Gulf coast, Suez, Ain Sokhna, and Ras Ghareb cities recorded the highest number of marine pollution incidents. The research also located seven sources of pollution that frequently discharge into the Gulf water without regulations. This research recommends implementing a real-time monitoring system for oil pollution to robustly detect any future oil incidents in these high-risk areas as quickly as possible and minimize their environmental impact. [ABSTRACT FROM AUTHOR]

Published

2023

27. Morphology, morphometry and population dynamics of the mussel Brachidontes pharaonis from the western region of Gulf of Suez.

Author

Ragab, Hedaya, Tantawy, Hala T., El-Moselhy, Khalid M., and Emam, Waheed M.

Subjects

MUSSELS, OCEANOGRAPHY, BODY weight, POPULATION dynamics

Abstract

Copyright of African Journal of Biological Sciences is the property of African Journal of Biological Sciences 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

2023

28. Three-Dimensional Integrated Geo-Static Modeling for Prospect Identification and Reserve Estimation in the Middle Miocene Multi-Reservoirs: A Case Study from Amal Field, Southern Gulf of Suez Province.

Author

Amer, Mohammed, Mabrouk, Walid M., Soliman, Khaled S., Noureldin, Ahmed M., and Metwally, Ahmed

Subjects

MIOCENE Epoch, THREE-dimensional modeling, STRUCTURAL models, FACIES, PROVINCES, VALUATION of real property, SHALE oils, GAS condensate reservoirs

Abstract

Middle Miocene reservoirs in the southern part of the Gulf of Suez province are characterized by geometrical uncertainties due to their structural settings, lateral facies change, different lithologies, and diverse reservoir quality. Therefore, in this study, detailed 3D geo-static models were constructed by integrating multiple datasets, including 2D seismic sections and digital well-logs. The 3D models were constructed for the Belayim Formation (Hammam Faraun Member), Kareem Formation (Markha Member), and Rudies Formation (Upper Rudies Member) with detailed structuration, zonation, and layering for Amal Field in the southern Gulf of Suez province to assess the hydrocarbon potential, calculate accurate reserves, recommend development and exploration plans, and propose locations for future drilling. The resultant structural model exhibited a compartmentalized area of major and minor normal faults trending NW–SE, forming structurally high potential hydrocarbon trapping locations in the study area. The petrophysical models indicated the good potentiality of Hammam Faraun as a reservoir with porosity values of 15–23%, increasing towards the central part of the area, volume of shale (Vsh) of 21–31%, water saturation (Sw) of 34–49%, and sand thickness increasing toward the northeastern part of the area. The Markha Member was also interpreted as a good reservoir, with porosity values of 15–22%, increasing towards the southeastern part of the area, Vsh of 13–29%, Sw of 16–38%, and sandy facies accumulating in the central horst block. Upper Rudies exhibits good reservoir properties with porosity values of 16–23%, Vsh of 29–37%, Sw of 35–40%, and good sandy facies in the central horst block of the area. The study results showed hydrocarbon potential in the central horst block of the study area for the Middle Miocene multi-reservoirs. [ABSTRACT FROM AUTHOR]

Published

2023

29. METHODS FOR 3D INVERSION OF GRAVITY DATA IN INDENTIFYING TECTONIC FACTORS CONTROLLING HYDROCARBON ACCUMULATIONS IN THE EL ZEIT BASIN AREA, SOUTHWESTERN GULF OF SUEZ, EGYPT

Author

A.G.M. Hassan, K.S.I. Farag, A.A.F. Aref, and A. L. Piskarev

Subjects

egypt, gulf of suez, el zeit basin area, bouguer anomalies, spectral layered gravity inversion scheme, parameterization and optimization, Science

Abstract

The Gebel EL-Zeit area in the southwestern Gulf of Suez, Egypt, is an area with a significant hydrocarbon potential in sedimentary basins, so that the three-stage inversion method was proposed for the Bouguer anomalies observed therein. Salt diapirs obscured the deep structure of the main central El-Zeit basin; hence, this method was implemented to overcome challenges in 3D seismic modeling. Our study included direct and inverse parameterization sequences that involved analyzing the inputs and outputs within trial-and-error initiations and inverse estimations to assess whether and how much the constraining parameters used in the calculations could achieve the intended aim. Data reduction, filtering, optimization, and constraint assumptions were used to determine the minimal set of density model parameters needed to set limits on the acceptable range of density contrasts that are required to study the basement depths, swells, troughs, faulting/folding and intra-sedimentary structures, and for direct modeling aimed at creating a simple model to save time. The thirteen constrained wells with a total depth ranging from shallow to deep were not involved in direct modeling but provided quality control over the graphical display of the inverse results for the entire study area. Moreover, many parameter constraints were inverted to regulate the way the calculated data are related to the model’s solution that allowed us to determine which inversion trial provided the best parameterization sequence and, therefore, yielded the most appropriate solution for the depth-density model which is approximating reality with a minimal computation error in the study area.

Published

2024

30. Geothermal Potentiality of Egypt: Review and Updated Status

Author

Abdel Zaher, Mohamed, El-Qady, Gad, Elbarbary, Samah, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, O. Gawad, Iman, Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Hamimi, Zakaria, editor, Khozyem, Hassan, editor, Adatte, Thierry, editor, Nader, Fadi H., editor, Oboh-Ikuenobe, Francisca, editor, Zobaa, Mohamed K., editor, and El Atfy, Haytham, editor

Published

2023

31. Phanerozoic Structural Setting and Tectonic Evolution of Egypt

Author

Yousef, Mohamed, Hamimi, Zakaria, Heneish, Ahmed, Hagag, Wael, Anan, Tarek, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, O. Gawad, Iman, Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Hamimi, Zakaria, editor, Khozyem, Hassan, editor, Adatte, Thierry, editor, Nader, Fadi H., editor, Oboh-Ikuenobe, Francisca, editor, Zobaa, Mohamed K., editor, and El Atfy, Haytham, editor

Published

2023

32. Machine learning-supported seismic stratigraphy of the Paleozoic Nubia Formation (SW Gulf of Suez-rift): Implications for paleoenvironment−petroleum geology of a lacustrine-fan delta

Author

Mohammad A. Abdelwahhab, Nabil A. Abdelhafez, and Ahmed M. Embabi

Subjects

Seismic stratigraphy, Nubia formation, Paleoenvironment, Petroleum geology, West Esh El Mallaha concession, Gulf of Suez, Petroleum refining. Petroleum products, TP690-692.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Steeply dipping prograding fan deltas possess high reservoir quality facies that could be excellent targets while exploring for hydrocarbons. Due to their complex stacking nature, and limited examples, delineating their architectural elements is still challenging. In this paper we mainly performed sedimentary facies analysis; applying various disciplines e.g. sequence stratigraphy, seismic stratigraphy, GR-log motifs, and seismic waveform segmentation; so as to adequately depict the reservoir heterogeneity and quality of the Paleozoic Nubia clastics in West Esh El Mallaha Concession (southwest Gulf of Suez rift). Organic maturity prediction, to confirm the hydrocarbon charging from source units to reservoir intervals, was also of most importance in this study. Accordingly, 1D basin model was established to define the past geologic events; subsidence, and thermal maturity; and their controls on sedimentary basin evolution and associated petroleum potential. We utilized several key-information scales; e.g. wireline logs, and seismic profiles. Linking different disciplines applied in this study points to a successful integrated reservoir characterization workflow capable of unfolding ancient environments and the associated hydrocarbon potential. The results show that Nubia Formation was built during the lowstand−transgressive phase of a 3rd order depositional sequence. It encompasses fluvio-lacustrine system with eight sedimentary facies associations; form source to sink. Fluvial channels and mouth bars, settled in subaerial and subaqueous settings respectively, represent the most significant reservoir facies in the area. Given best hydrocarbon-reservoir quality, the deltaic mouth bars ought to attract attention of further oilfield development plans and be considered while investigating similar settings.

Published

2023

33. Applying the improved stratigraphic modified Lorenz technique for dividing the highly heterogeneous clastic reservoirs into hydraulic flow units.

Author

Nabawy, Bassem S., Mohamed, Ahmed S., Omran, Awad A., and Mohamed, Mostafa T.

Subjects

*VERTICAL integration, *OIL fields, *POROSITY, *PERMEABILITY, *HETEROGENEITY, *PETROPHYSICS

Abstract

The present study applies the improved stratigraphic modified Lorenz (ISML) technique to divide the Matulla Formation in Muzhil Oil Field in the Gulf of Suez into some hydraulic flow units (HFUs) and to check the flow efficiency contribution of each hydraulic flow unit (HFU) to the total bulk flow capacity of the reservoir in 3 wells (Muzhil-4, 7, and 8). The output of the ISML plot is applied in integration with the vertical plot of the porosity (∅), permeability (k), and effective pore radius (R35) against depth to measure the efficiency of each HFU contribution to the total flow capacity of the Matulla reservoir, and to delineate the main attributor to the flow capacity. It is indicated that the Matulla sandstone reservoirs can be subdivided into 7 HFUs to the NW of the field, while it is subdivided into four and five HFUs in the center and to the SE of the field; i.e., its heterogeneity increases to the NW at Muzhil-7 well. On the other side, the best reservoir quality is assigned to the southeast at Muzhil-4 well (av. ∅ = 20.8%, av. k = 596.6 md, and R35 = 12.1 μm). The efficiency of the obtained HFUs was estimated and described both mathematically and graphically. Also, the measured porosity and permeability values indicate relatively low reservoir properties to the NW of the field. The reservoir heterogeneity is also measured using the Dykstra-Parsons technique which indicates extremely high heterogeneity (0.89 ≤ V ≤ 0.98). [ABSTRACT FROM AUTHOR]

Published

2023

34. Utilizing shallow seismic reflection for mitigating seismic and geo-environmental hazards in the development project of Gabal Ataqa Area, Cairo–Suez District, Egypt.

Author

Mohammad, Hossameldin M., Elhady, Sherif M., Kotb, Adel, Ezzelarb, Mohammad, and Basheer, Alhussein Adham

Subjects

*SEISMIC reflection method, *ENVIRONMENTAL health, *NATURAL disasters, *EARTHQUAKE zones, *EARTHQUAKES, *HAZARDS, DEVELOPING countries

Abstract

Nowadays, development projects are becoming so rapid in many developing countries worldwide. The study of interest focuses on Cairo–Suez District, which represents the most important location in Egypt for major infrastructure projects and urbanization expansion. Consequently, it is very important to reduce the hazards surrounding this area from natural disasters, so all information that supports geo-environmental hazards assessment is importantly needed. The Gabal Ataqa area has socioeconomic importance as it is considered the industrial zone in the national project for developing the northern part of the Gulf of Suez. The situation of Gabal Ataqa area for being rich with numerous geological structures, and its socioeconomic importance calls the need for the delineation of the subsurface structural features in this area using the appropriate method. The geological framework has recognized all Quaternary faults in the Gabal Ataqa area as they are exposed to the surface, at the same time, no seismic reflection data has been acquired in the Gabal Ataqa area. Accordingly, the shallow seismic reflection method is applied in the Gabal Ataqa area to detect the Quaternary faults that are not exposed to the surface and also to detect any subsurface features that may cause construction problems, such as water-wet sands, sabkhas, and limestone cavities. Three lines of 2D seismic profiles are acquired in the study area. After applying seismic data processing and interpretation, two Quaternary faults have been recognized in the first and third lines. The location of the first seismic line has been chosen to be between two historic earthquake events, increasing the probability that the sources causing these two events will be located on the newly recognized quaternary fault. A dim spot has been recognized in the second seismic line at a depth of 50 m, which may indicate the presence of a groundwater aquifer or wet sandstone layer. Based on these results, changing the industrial zone place to another side to be away from the area of the three seismic lines is highly recommended. [ABSTRACT FROM AUTHOR]

Published

2023

35. Population structure of two Octopus species, Amphioctopus aegina and A. membranaceus in the Gulf of Suez, Egypt.

Author

Ahmed, Ayman S., El Ganainy, Azza A., Osman, Mohamed F., and Khalil, Magdy T.

Subjects

*OCTOPUSES, *FISH mortality, *SPECIES, *AGE groups, *FISHERY management

Abstract

Ageing of Amphioctopus. aegina and A. membranaceus revealed three different age groups, and the main bulk of the catch was represented in the second age group for the two species. Von Bertalanffy growth constants were determined as; L8= 11.76 cm DML, K= 0.39 year-1, t0= 0.11 year-1 and Ø= 1.73 for A. aegina, and L8= 11.47 cm DML, K= 0.45 year-1, t0= 0.33 year-1 and Ø= 1.77 for A. membranaceus. The total mortality (Z), natural mortality (M), fishing mortality (F) and exploitation rate (E) were calculated as 2.87, 1.17, 1.70 and 0.59 year-1, respectively for A. aegina, and 2.70, 1.29, 1.41 and 0.52 year-1, respectively for A. membranaceus. The length at recruitment (Lr) of A. aegina and A. membranaceus was 1.9 and 2.4 cm DML, that corresponding to age (tr) of 0.56 and 0.85 year, respectively. Length at first capture (Lc) was 6.28 and 4.05 cm DML for A. aegina and A. membranaceus, respectively, and the age at the first capture (tc) was 2.07 and 1.46 years, respectively. This study is very important for fisheries management in the Gulf of Suez, where, some recommendations to reduce the exploitation rates for the two Octopus species in the Gulf were proposed. [ABSTRACT FROM AUTHOR]

Published

2023

36. Three‐dimensional structural modelling of structurally complex hydrocarbon reservoir in October Oil Field, Gulf of Suez, Egypt.

Author

Khattab, M. A., Radwan, Ahmed E., El‐Anbaawy, M. I., Mansour, M. H., and El‐Tehiwy, A. A.

Subjects

*HYDROCARBON reservoirs, *STRUCTURAL models, *PETROLEUM reservoirs, *THREE-dimensional modeling, *SEISMIC surveys, *PETROLEUM reserves, *RESERVOIRS, *OIL fields

Abstract

The October Oil Field is structurally complex due to its presence in the structurally complex system of the Gulf of Suez Rift Basin area, with the last updated structural model developed in 2012. Although the 2012 model defined the general structural framework and reservoir architecture, many challenges arose during the field development. The current study is focusing on the structural elements affecting this giant field to update the field structural model using the newly processed 3D seismic survey, the acquired data from newly drilled wells, and the associated different logging techniques. Several geological structure contour maps and cross‐sections were generated to help in delineating and understanding the reservoir's extension. Based on the detailed correlation study, we were able to detect the faults that affected the structure of the October Field in detail, define their throw amounts and directions, and identify the missed sections across the studied area. This study introduces a comparison between the old and updated model scenarios to show the differences and their effect on the field development plan and recommendations. The updated model shows differences between the 2012 model and the current study's modified model in the number, extension, and location of faults: the old model has 17 faults, while the modified model has 13 faults. The main clysmic fault "F1" has a significant impact on the entire field because it affects all studied wells. Furthermore, the F3 and F4 faults have a significant impact due to their ability to create and add compartmentalization within the area of study. This study revealed that the updated detailed 3D structural model can support the development plans for the Nubia reservoir and motivate drilling, workover, and dynamic operations to assign the development opportunities in the proper location. Based on the developed model, there are at least three opportunities in the attic areas of the study that could increase oil production and oil reserves for the field while avoiding any more failures. [ABSTRACT FROM AUTHOR]

Published

2023

37. Rock typing of the Miocene Hammam Faraun alluvial fan delta sandstone reservoir using well logs, nuclear magnetic resonance, artificial neural networks, and core analysis, Gulf of Suez, Egypt.

Author

Ismail, Ahmed, Zein el‐Din, M. Y., Radwan, Ahmed E., and Gabr, Mahmoud

Subjects

*ARTIFICIAL neural networks, *NUCLEAR magnetic resonance, *ALLUVIAL fans, *SANDSTONE, *MIOCENE Epoch, *PETROPHYSICS

Abstract

The application of integrated methods to evaluate the quality of reservoir rocks is becoming crucial in petroleum geoscience. The Miocene reservoirs in the El Morgan Oil Field consist mainly of sandstones with interbedded dolomitic silts and shales. Based on the pore scale, the sandstone reservoir of Hammam Faraun Member is a heterogeneous reservoir, and this is the main challenge in this oil field that affects both production and exploration activities. In this article, we have integrated the well logs, nuclear magnetic resonance (NMR), artificial neural networks (ANN) and core analysis to better understand these alluvial fan sandstone reservoirs. The petrographic description indicates arkosic sandstone with varied pore types, texture, cement, and sorting. The studied flow and storage capacity for well#1, indicate four rock types with 24 flow units and eleven barriers, which indicates a high degree of heterogeneity. The artificial neural networks (ANN), that is, the K.mod module, were used to enhance the prediction quality and forecast of FZI in the uncored intervals, where the NMR‐calculated permeability acts as a calibration point for the FZI model validation. This study reveals that the FZI is controlled by permeability, which is mostly influenced by pore throat size. The NMR log showed varied free fluid volume with varied capillaries, clay‐bound volumes and minor streaks of tar along the studied unit. The reservoir pores in the study area are residual pores that have undergone mechanical compaction and cementation that reduce porosities, while dissolution enhances the sandstone porosities. Porosity and permeability were significantly reduced in the presence of clays and carbonate minerals, which indicates poor reservoir quality zones in some parts. The primary factor influencing permeability is pore throat size, which is heavily influenced by the depositional environment and subsequent diagenetic processes. The findings of this study could lead to the development of accurate reservoir static models for future exploration and development plans in the studied area and elsewhere in similar depositional settings. [ABSTRACT FROM AUTHOR]

Published

2023

38. Optimum Casing Design for Massive Salt Formations in Gulf of Suez.

Author

Hussien, M. R., Kamel, S., and Farag, S. F.

Subjects

*SALT, *SALTS

Abstract

CSG collapse, or pipe deformation against salt formations in South Gharib and Belayim formations considered one of most known problems in GUPCO at 1970's. CSG design change over time using higher collapse rating, increase wall thickness and using of double concentric cemented casing against salts. This Paper will describe a practical methodology to estimate casing deformation problems due to salt loading. This approach allows changing field-casing design that was standardized in Gulf of Suez fields for more than 30 years from a double-cemented concentric casing string against salt bodies to a single casing standing alone. This approach greatly impacts total well cost, enhances well productivity, and provides room for future sidetrack opportunities. The methodology is based on calculating the casing deformation and comparing it to the clearance between the casing inside diameter and drift. An equation that calculates the magnitude of change in casing inside diameter due to salt loading will be developed based on previous literature and correlated to match the actual casing deformation incidents that happened in different fields and in different casing specs in the Gulf of Suez. Then the new modified equation and software model will be used to extrapolate the performance of a single heavy wall casing to stand alone against the salt section. [ABSTRACT FROM AUTHOR]

Published

2023

39. Managing the Risk of Wellbore Instability Using Geomechanical Modeling and Wellbore Stability Analysis for Muzhil Shale Formation in Gulf of Suez, Egypt.

Author

Mohamed, Ahmed S., Omran, Awad A., Mohamed, Mustafa T., and Nabawy, Bassem S.

Subjects

*PRESSURE measurement, *AZIMUTH

Abstract

Wellbore instability constitutes potential risks during wellbore drilling operation; these risks may cause complicated states, and in some cases, can lead to costly operational issues. In this study we present the best solution by predicting and quantifying wellbore instability in Muzhil field, Gulf of Suez, using a 1-DMechanical Earth Model (1DMEM) built with well logs, pressure measurements, and drilling events reports. Firstly, we created 1DMEM by calculating the pore pressure, vertical stress, rock strength, rock elastic parameters, and horizontal stresses. Mohr Coulomb, Modified Lade and Mogi Coulomb failure criteria determined the well deformation possibility. Lastly 1-DMEM can be used to conduct a comprehensive geo-mechanical wellbore stability analysis for the trouble zones of Muzhil Formation. 1-DMEM results showed that the best azimuth for Vertical and slightly inclined Wells will be (40º–60º) clockwise from the North, i.e., parallel to SHmin (NE40SW). The wellbore stability analysis showed that the vertical and low deviated wellbore (less than 40º) is safe and more stable than the horizontal and high deviated wellbore and unsuitable Mud Weight (MW) is a major cause of the wellbore instability. The optimal solution to wellbore instability is to follow the optimum wellbore path and use safe MW. The optimum MW in shale formation ranges from (13.5-15) ppg. The results contribute to the development plan of the wellbores nearby the studied area and reducing nonproductive time and cost. [ABSTRACT FROM AUTHOR]

Published

2023

40. Seasonal dynamics of phytoplankton in the northern part of Suez Gulf, Egypt.

Author

El-Sheekh, Mostafa, Abu-Faddan, Mahmoud, Abo-Shady, Atef, Nassar, Mohamed Zein Alabdein, and Labib, Wagdy

Subjects

PHYTOPLANKTON, BIOCHEMICAL oxygen demand, AUTUMN, SEASONS, NUMBERS of species, SPECIES diversity

Abstract

This study was conducted to evaluate the seasonal variability of phytoplankton in the northern part of the Gulf of Suez (Suez Bay), considering the contribution of physicochemical parameters of bay water in shaping the dynamics, and eutrophication assessment. Water and phytoplankton samples were collected seasonally at nine stations in the Suez Bay during the period from the winter to autumn of 2012. A total of 423 phytoplankton species were identified, comprised mainly of 224 diatoms, 127 dinoflagellates, 33 cyanophytes, 20 chlorophytes, and 9 euglenophytes; the rest of the species (10 species) belong to other six groups. Of these, 28 species were potentially harmful. The total phytoplankton abundance exhibits a significant seasonal variation, with the autumn being the most fertile season, followed by the winter due to the proliferation of diatom species Thalassionema nitzschioides and Proboscia alata f. gracillima, respectively. While the seasonal species richness indicates that the winter attained the highest number of species, followed by summer. Generally, the major diatom genera were Chaetoceros (16 species), Navicula (15 species), Nitzschia (15 species), and Amphora (14 species), while dinoflagellates were principally composed of the genera Protoperidinium (34 species), and Tripos (26 species). Water temperature, pH, salinity, nitrate, and nitrite were the most important explanatory parameters in regard to phytoplankton abundance and chlorophyll a concentration. In addition, the phytoplankton stability exhibited a significant positive relationship with the mean values of dissolved oxygen and biological oxygen demand and the variability of salinity and phosphate, while a negative relationship was observed with ammonia and nitrite and the variability of nitrate. Based on the trophic index (TRIX), the bay water was classified as mesotrophic (moderately polluted) for almost the entire year except in the autumn as it turned eutrophic. The results explored the potential importance of the environmental heterogeneity in the bay as a key structuring mechanism of phytoplankton abundance and biomass, influenced by anthropogenic activities. [ABSTRACT FROM AUTHOR]

Published

2023

41. Tectonic-Thermal Evolution of the Wadi El-Dahal Area, North Eastern Desert, Egypt: Constraints on the Suez Rift Development.

Author

Mansour, Sherif, Hasebe, Noriko, Khedr, Mohamed Zaki, Tamura, Akihiro, and Shehata, Amer A.

Subjects

*DESERTS, *AGE groups, *MANTLE plumes, *EROSION, *DATA modeling

Abstract

The Suez Rift developed as a northern extension of the Red Sea rift during the Oligocene-Miocene, whose flanks were constructed from the Neoproterozoic basement rocks of the Arabian–Nubian Shield. These basement rocks are comprised of the whole tectonic history since their formation. The Suez Rift initiation model and proposed thermal overprint role in the rifting process and flank development remain uncertain. Additionally, the amplitude of different regional tectonic events' effects on the region is still debatable. Integration of fission-track thermochronology data with modeling of the time-temperature history has demonstrated efficiency in addressing such issues. In the context of this study, eleven representative samples were collected from the different rock units in the Wadi El-Dahal area at the northern tip of the western flank of the Suez Rift. These samples revealed Carboniferous zircon fission-track cooling ages of 353 ± 9 Ma and 344 ± 11 Ma. Meanwhile, the apatite fission-track analysis provided two spatially separated age groups: Permian-Triassic and Late Cretaceous, with average ages of 249 ± 11 Ma and ca. 86 ± 10 Ma, respectively. The time-temperature modeling revealed four possible cooling pulses representing exhumation events, which were initiated as a response to four tectonic activities: the accretion-subsequent event of erosion during the Neoproterozoic, the Hercynian (Variscan) tectonic event during the Devonian-Carboniferous, the Mid-Atlantic opening during the Cretaceous, and the Suez Rift opening during the Oligocene-Miocene. The western flank of the Suez Rift suggests a passive mechanical type with no extra thermal overprint, as indicated by the dominance of older thermochronological ages, modest rift flank elevations, and a reduction in the heat flow. [ABSTRACT FROM AUTHOR]

Published

2023

42. Assessment of microplastic pollution in the Gulf of Suez: Abundance and polymeric composition in beach sediments.

Author

Taher, Nahla Z., Shabaka, Soha, Soliman, Yosry A., and Younis, Alaa M.

Subjects

*COMPOSITION of sediments, *POLLUTION, *VINYL acetate, *PLASTIC scrap, *PLASTIC marine debris, *MARINE pollution, *KRUSKAL-Wallis Test, *BIODEGRADABLE plastics, *POLYTEF

Abstract

The Gulf of Suez is a crucial shipping route and a hub for mining and oil drilling operations, making its area particularly susceptible to the accumulation of marine plastic waste. This study evaluates the abundance and composition of microplastics (MPs) along the Gulf of Suez shores. A total of 268 MPs particles were extracted from the sediments, with an average of 204.3 ± 146.6 MPs/kg dry weight. The Kruskal-Wallis test did not show significant variations among stations. The recovered MPs were mostly hard fragments and fibers. Most of the sampled stations had a low Pollution Index (PLI), indicating a low prevalence of MPs. The predominance of polyethylene vinyl acetate (PEVA) and polytetrafluoroethylene (PTFE) suggests that marine-based sources and associated industrial activities are the main contributors. These findings offer a preliminary assessment of marine plastic pollution along the Gulf of Suez shores, highlighting the crucial need for monitoring offshore waters and sediments. Given the heavy shipping activity in the region, the offshore zone of the Gulf of Suez is expected to have higher levels of plastic pollution. The study also contributes to the expanding understanding of marine plastic pollution in the Red Sea region. [ABSTRACT FROM AUTHOR]

Published

2023

43. Seven-Arms Starfish "Luidia maculata" Characteristics of Coelomocytes and Promising GSK3-β Protein for Wound Healing: Cellular and Chemical Analyses.

Author

Abdel-Ghaffar, Wafaa H., Attia, Mohamed S., and Youssef, Fadia S.

Subjects

*WOUND healing, *CELL analysis, *STARFISHES, *ANALYTICAL chemistry, *LEUCOCYTES, *SIGNAL recognition particle receptor

Abstract

The coelomic fluid (haemocoel) and coelomocytes of echinoderms were scarcely studied in Egypt. Remarkably, the most popular species is the fivearms starfish. While, in this work, the microscopical and chemical characteristics of the 7-arms giant starfish "Luidia maculata" were addressed. The starfish were gathered at 7 meters' depth in the seawater of Ras Sedr, Gulf of Suez, Red Sea, Egypt. As far as we know, no other microscopical data have been published on this species in Egypt. The extracted coelomic fluid of this giant starfish "Luidia maculata" was microscopically and chemically analyzed using TEM and GC/MS, respectively. The exhibited data showed the presence of glycogen synthase kinase3-β protein by protein docking, which is considered a promising constituent for wound healing. Finally, this work spotted the light on novel documented data on the microscopical and chemical characteristics of barely studied species of starfish "Luidia maculata", in which the studied coelomocytes showed an amoeboid state resembling the human white blood cells. The examined flagella displayed a typical microtubule arrangement "9+2 array". The coelomic fluid extracted from "Luidia maculata" exhibits glycogen synthase kinase3-β (GSK3-β) protein, which could be considered a promising biovital constituent for many medicinal applications including wound healing in diabetics. [ABSTRACT FROM AUTHOR]

Published

2023

44. Tracking of phenol bioremediation by two marine eco-friendly Aspergillus terreus MHG30 (ON649683) and A. terreus MHG60 (ON649704) strains at optimum conditions.

Author

El-Din, Heba M. Ezz, Kelany, Mahmoud S., Hamed, Mohamed. A., El-Agroudy, Nadia A., and Zaghloul, Ghada Y.

Subjects

*ASPERGILLUS terreus, *POLLUTANTS, *PHENOL, *BIOREMEDIATION, *MARINE fungi

Abstract

The rapid population and industrial development worldwide have increased chemical pollutants reaching the marine environment. In the present study, marine fungi were isolated from two collected petroleum sites at the Gulf of Suez, Red Sea, Egypt, during spring (2021). Fungal isolates were purified and screened for their ability to bio-remediate phenol and ortho-cresol bioremediation. Out of twenty two, eight marine fungal isolates represented their potency for the bioremediation of these phenolic compounds. These selected fungi were identified morphologically and numbered according to the AUMC center as Aspergillus flavus 15524, Aspergillus terreus 15525, Aspergillus flavus 15526 and Aspergillus terreus 15527 for phenol bioremediation, and Fusarium oxysporum 15528, Fusarium oxysporum 15529, Aspergillus terreus 15530 and Aspergillus terreus 15531 for o-cresol bioremediation. The two most potent marine fungal isolates able to degrade phenols with high efficiency are strains number 15527 and 1553 which were identified by DNA sequence as A. terreus MHG30 (ON649683) and MHG60 (ON649704), respectively. The optimum condition for phenol degradation by A. terreusMHG30 were 1000 mg/l phenol, pH-8 at 34°C, and contact time 168 hrs., while A. terreus MHG60 showed optimum condition using 250 mg/l ocresol, pH 6 at 31 C0 after 168 hrs. Maximum degradation rates were recorded at 88.34 and 98.1 % for ON649683 and ON649704 strains, respectively. Both strains, ON649683 and ON649704 were acquired with 61 and 64 inhibitory % for oxidase with 81 and 78 % for peroxidase enzymes, respectively. The Km/Vmax of both isolates was achieved at 0.18, 0.19, 0.03, and 0.29 for the studied enzymes. In addition, the active compounds of GC-Mass (Hexadecanoic acid, methyl ester, and 6, 9, 12-octadecatrienoic acid) are used to determine the unique eco-friendly compounds that result from the bioremediation procedure for phenol and o-cresol. [ABSTRACT FROM AUTHOR]

Published

2023

45. Reproductive Aspects of Two Octopus Species, Amphioctopus Aegina and A. Membranaceus in the Gulf of Suez, Northern Red Sea, Egypt.

Author

Ahmed, Ayman S., El Ganainy, Azza A., Osman, Mohamed F., and Khalil, Magdy T.

Subjects

*OCTOPUSES, *SEX ratio, *SPECIES

Abstract

The reproductive characteristics (sex ratio, maturity stages, gonadosomatic index and length at first sexual maturity) of Amphioctopus aegina and Amphioctopus membranaceus were reported from the Gulf of Suez, northern Red Sea, Egypt. A total of 833 individuals of A. aegina and A. membranaceus were dissected and examined between September 2017 and April 2018. The sex ratios (males: females) were 1: 1.03 and 1: 1.46 for A. aegina and A. membranaceus, respectively. Five maturity stages for both sexes of A. aegina, four maturity stages for males and five maturity stages for females of A. membranaceus were recorded. Two peaks of spawning have been recorded, the first occurred in March-April and the second peak was in September-October for both species. Dorsal mantle length at first sexual maturity (Lm) was estimated at 6.4 and 7.0 cm for males and females of A. aegina, respectively, while for A. membranaceus, it was 3.7 and 3.9 cm for males and females, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

46. Integrated Geological and Petrophysical Approaches for Characterizing the Pre-Cenomanian Nubian Sandstone Reservoirs in Ramadan Oil Field, Central Gulf of Suez, Egypt.

Author

Saleh, Ahmed H., Hemimey, Wafaa A. El, and Leila, Mahmoud

Subjects

*HYDROCARBON reservoirs, *PETROLEUM reservoirs, *SANDSTONE, *RESERVOIR rocks, *FLUID flow, *RESERVOIRS, *OIL fields, *MESOPORES

Abstract

The present study integrates multidisciplinary geological and petrophysical approaches to characterize and evaluate the potential of the pre-Cenomanian Nubian sandstone reservoirs in the Ramadan oil field, the central offshore part of the Gulf of Suez, Egypt. The different petrophysical parameters of the Nubian sandstone reservoirs (shale volume, porosity, water saturation as well as gross and net-pay thicknesses) were mapped, and 3D slicing models for the hydrocarbon phases saturation were constructed to understand the reservoir heterogeneity and the distribution of the best reservoir facies. The petrophysical results of the pre-Cenomanian Nubian succession highlight very good reservoir intervals in the Nubian C sandstones containing thick pay zones (> 120 m). On the other side, the Nubian A and B reservoir rocks are less prospective with pay zone horizons (< 10 m). Integrated reservoir models and wireline log analysis elucidate that clay volume is the most detrimental factor to the reservoir quality as the pay zone thickness and hydrocarbon saturation often increase where the clay volume decreases. Therefore, the presence of scattered pay zone intervals in Nubian A and B is mainly related to their elevated clay content which acts as barriers for fluids flowing within the reservoir facies. The Nubian C succession contains three different reservoir rock types (RRT) with variable compositional and petrophysical properties. RRTI and RRTII sandstones comprise quartzose sandstones with very low clay content (< 10%) and are characterized by an open pore system dominated by macropores. These sandstones are less impacted by overburden pressure and therefore can preserve their depositional porosity and permeability. On the other hand, RRTIII reservoir rocks are clay rich (> 10%) with abundant mesopores that are more prone to compressibility and hence reduction of the pore volume and pore throat. The present study highlights the significance of comprehensive integration between wireline logs, cores, and 3D reservoir models in directing exploration endeavors toward prospective reservoirs in mature basins. [ABSTRACT FROM AUTHOR]

Published

2023

47. Detection of Thermal Features Through Interpolation of Well-Log Data in Low-to-Medium Enthalpy Geothermal System, Gulf of Suez, Egypt.

Author

Masoud, Alaa A., Kubo, Taiki, and Koike, Katsuaki

Subjects

ENTHALPY, SALT domes, GEOTHERMAL resources, INTERPOLATION, HEAT flux, GROUND source heat pump systems

Abstract

The Gulf of Suez (GOS) is the most promising geothermal resource for power generation to promote a green energy mix in Egypt. This research clarifies the GOS geothermal features and the control factors forming high-temperature zones by three-dimensional (3D) interpolation of temperature, geothermal gradient, and heat flux borehole temperature data from 281 oil wells with confirmed ranges of 25.1–184.5 °C (average: 105.7 °C), 0.02–6.97 °C/(100 m) (average: 3.1 °C/(100 m)), and 20.4–232.4 mW/m2 (average: 104.2 mW/m2), respectively. K-means clustering distinguished three regional structural areas and two local accommodation zones. These formed the highest potential plays: a medium enthalpy (100–180 °C) basement-dominated play in the southernmost GOS and a low enthalpy (< 100 °C) sediment-dominated play in the northernmost GOS. The results clarified that the GOS resource is characterized by (a) large radiogenic heat and permeability at shallow basement depths, (b) frequent volcanic activity, (c) large porosity and permeability of the clastic and carbonate sequences, (d) development of fractures of varying density, geometry, intersection, and frequent rejuvenation, (e) development of evaporites together with salt diapirs, and (f) frequent earthquakes with magnitudes greater than 3. Strong fault control on the geothermal resource was identified through lineament analysis of integrated bathymetry and topography in the GOS and surrounding area. Findings from the analysis helped to locate efficiently areas with high geothermal potential, leading to better management for binary power generation and enhanced geothermal systems in the GOS. [ABSTRACT FROM AUTHOR]

Published

2023

48. Assessment of environmental hazards at El-Galala El-Bahariya Plateau, Gulf of Suez, Egypt, using spatial multihazards assessment modeling

Author

Kholoud M. AbdelMaksoud, Heba M.R. Hathout, Kholoud M. El-Sayed, and Wael M. ALMetwaly

Subjects

Geohazard, Risk assessment, El-Galala El-Bahariya Plateau, Gulf of Suez, Spatial multihazards model, Geodesy, QB275-343

Abstract

Environmental multihazard assessment modeling is essential for developing plans to mitigate the impact of future risks. They can be generated for a specific location by combining assessment maps of different types of natural hazards. Multiple approaches were used in this study to achieve an analytical hierarchy. “, including the usage of a geographical information system (GIS), fieldwork, geoanalytical studies, and chemical analysis” for an improved flow of information. The assessment maps of risk factors were initially produced. Subsequently, these maps were combined into a single map of multihazards using a spatial decision model. Hazard analysis indicated that the central part of the El-Galala El-Bahariya Plateau in the study area had the steepest slope (near vertical and classified as “high” to “very high”). The central part of the El-Galala El-Bahariya Plateau is the second largest part of the study area. Numerous tourist resorts have been established at this site. The rock formation in the research area was partially comprised very weak micrite limestone. Micrite limestone exceeds the recommended limits at 20% of the total rock formation. Unfortunately, projects aimed at attracting tourists have been built on deteriorating rocks, increasingly becoming of poorer rock quality. The results showed that parts of the study area become vulnerable to natural hazards due to its tectonic history and particular rock formation. The produced multihazard map indicated that the most suitable areas for urban development were located in the eastern part of the mountains. A safety zone limiting the location of tourist resorts would be required. To avoid rock deterioration and dissolution, unplanned waterwaste systems would have to be prohibited, and isolated waste pipes would be constructed. Environmentally friendly geotechnical solutions should be used to increase the rock strength, end rock destruction, and reduce hazard exposure.

Published

2022

49. Total OH Reactivity

Author

Gros, Valérie, Zannoni, Nora, Dulac, François, editor, Sauvage, Stéphane, editor, and Hamonou, Eric, editor

Published

2022

50. Role of Seismic Refraction Tomography (SRT) in bedrock mapping; case study from industrial zone, Ain-Sokhna area, Egypt.

Author

EL HAMEEDY, Muhammad A., MABROUK, Walid M., DAHROUG, Said, YOUSSEF, Mohamed S., and METWALLY, Ahmed M.

Subjects

*SEISMIC tomography, *SEISMOLOGY, *BEDROCK, *SEISMIC wave velocity, *FACTORY design & construction, *GEOPHONE

Abstract

In this study, eighteen compressional P-wave seismic refraction profiles survey was conducted on the western side of the Gulf of Suez, Egypt, to map bedrock topography, which is vital information in foundation pole placement and design for large factory construction. The configuration of the seismic survey consists of 10 metres geophone intervals (12 and 24 channels) with a total survey length of 3150 metres survey length. The seismic compressional wave velocity distribution reveals three layers ranging from (400 to 1100 m/s), (1200 to 2000 m/s), and (2200 to 3500 m/s). According to the data, the first low-velocity layer represents unconsolidated Wadi sediments. The second layer, on the other hand, comprises consolidated Wadi sediments, while the third layer comprises fractured to intact sandstone bedrock. The thickness of the first layer is believed to be between 0.5 and 10 m, while the thickness of the second layer is between 8.5 and 25 m. Pseudo-3D model of velocity distribution was constructed, revealing the presence of several low-velocity zones at a depth ranging from 15 to 32 m. Then, the topography of the non-rippable sandstone rock mass was mapped utilizing 3-D model. Finally, the correlation between seismic refraction tomography (SRT) results and nearby well logging dataset drilled by the Egyptian Geological Survey and Mining Authority (EGSMA) matched quite well. It may be inferred that, up to a depth of 15 to 32 metres, there is a high-velocity rock layer suitable for constructing deep foundations for multiple levels of the mega factory. [ABSTRACT FROM AUTHOR]

Published

2023