Engineering Commons^™

Evaluation Of Smart Water Flooding In A Selected Uae Carbonate Oil Reservoir, Mohammad Jasem Khalifi

Chemical and Petroleum Engineering Theses

Water flooding is by far the most common method of improved oil recovery applied in oil reservoirs. Water is the cheapest source of external energy that has been used over decades in water flooding schemes, provided that the damage does not adversely affect its injectivity. Displacement efficiency of water flooding can be significantly affected by crude oil/water/rock interactions. Historically, some consideration was given to such interactions in the practice of reservoir engineering. In recent years, extensive research in this area has documented that higher oil recoveries can be obtained when low-salinity water is injected in a formation with high salinity …

Assessment Of Shear Prediction Models For Seismic Loss Estimation Of Concrete Buildings, Bashir Mohamed Ayman Al Murad

Civil and Environmental Theses

No abstract provided.

Experimental Investigation Of Co2 Transport Through Combined Membrane Absorber And Regenerator, Nima Mohammadrasool Atbaei

Chemical and Petroleum Engineering Theses

Greenhouse gases such as carbon dioxide have been known to contribute significantly to global warming, which in turn has resulted in serious global environmental problems. Carbon dioxide is the main gaseous contaminant in the atmosphere, representing about 80% of greenhouse gases. It is reported that industry and power plants using fossil fuels such as coal-combustion power generators produce half of the CO₂ emissions. These emissions create the need for low energy-consumption, and efficient technologies for the capture and removal of CO₂ from gas mixtures produced by industrial sources.

Conventional gas absorption processes for the removal of CO_{2 …}

Behavior Of Double-Sided Concrete Corbels Reinforced With Glass-Fiber Reinforced Polymer Bars, Ayman Farid Abu Obaida

Theses

Steel reinforced concrete members with small shear span-to-effective depth ratios (a/d), such as corbels; have many classical applications, mostly in tall building, precast structures, factory buildings, bridges, and foundations. Despite extended research works on the performance of such members, little information is available on the performance of these members when reinforced totally with internal fiber reinforced polymer (FRP) bars. The use of FRP bars in reinforcing concrete members would eliminate corrosion problems thus increasing the service life of the structure. This thesis aims at investigating the shear strength of double-sided concrete corbels reinforced with glass-fiber reinforced polymer (GFRP) bars. The …

Performance Of Continuous Concrete Slabs Reinforced With Hybrid Steel-Basalt Bars, Mohammad Sohayeb Akiel

Theses

Continuous steel-reinforced concrete structures are vulnerable to corrosion

Damage when exposed to harsh environment. Although replacing conventional steel entirely with basalt fiber-reinforced polymer (BFRP) bars can eliminate corrosion problems, the lower modulus of elasticity of BFRP would reduce serviceability of the structure. The use of hybrid steel-BFRP bars rather than BFRP bars only has a potential to improve the serviceability of continuous concrete

Structures without reducing the deformation capacity. Through experimental testing and numerical simulation, this work aims to examine the structural behavior of two-span concrete specimens internally reinforced with BFRP or hybrid steel-BFRP bars.

A total of 12 two-span …

An Islanding Detection Method For Micro-Grids With Grid-Connected And Islanded Capability, Hasna Mubarak Saleh Ai Seiari

Theses

With the increasing prevalence of renewable energy and distributed generation (DG) in distribution systems, micro-grids are becoming more popular and an attractive option for enhancing system operation and reliability. This can be attributed to the micro-grid ability to operate in both connected and disconnected modes. Equally important, micro-grids are the best solution to meet the increasing demand of electric power in a cost effective manner due to the close proximity to the load demand and thus minimizing system losses. Islanding detection methods have been proposed for inverter based distributed generation with only grid-connected capability. Micro-grids are composed of DGs that …

Design, Fabrication And Characterization Of Low­ Power Gas Sensors Based On Organic-Inorganic Nano-Composition, Ayah Faeik Salim Abu Hani

Theses

Lower power consumption and higher performance are compelling demands in the electronic systems motivating the search for new materials, which are capable of fulfilling these demands. Recently, nanomaterial-based sensor technology has drawn considerable attention towards the development of sensing applications such as H2S gas sensors. Development of H2S gas sensors is crucial due to its extreme toxicity and damaging effects on both health and environment. This thesis aims to develop H2S gas sensors with enhanced sensitivity, flexibility, lower operating temperature, and high selectivity.

The proposed sensors present a contribution to the field of nano-electronics. They are designed based on the …

Characterization Of The Interfacial Behavior Of Hybrid Fiber-Steel Lap Connections Fastened By Steel On Frp Anchors, Omnia Ragab Abou El-Hamd

Civil and Environmental Theses

Fiber reinforced polymers (FRP) are extensively used in several engineering fields due to their superior properties. In structural engineering applications, fiber polymers have been recently used for retrofitting and strengthening of existing structures. A common technique for strengthening steel structures involves bonding FRP composites to targeted steel elements. However, bonding practices and researches revealed undesirable brittle failure of the adhesive at the FRP-steel interface. A recent research program conducted at UAE University validated the effectiveness of using mechanically fastened hybrid FRP (HFRP) laminates in strengthening steel beams. Outcomes of the research program revealed that the fastening technique could provide a …

Using Ceramic Waste Powder In Producing Self-Compacting Concrete, Sama Tarek Sayed Taha

Civil and Environmental Theses

Self-compacted (i.e. consolidated) concrete (SCC) is a special type of concrete that represents a great advancement towards a better quality of sustainable concrete. This unique type is known for its high flowability and superior levels of surface finish without tendency for segregation. The inherited distinct features can be achieved by the addition of high powder content as filler (i.e. size < 0. 125 mm) in the concrete mixture. The filler enhances the rheological properties of the SCC mixture without the need for using higher cement contents and hence, reduces the cost and heat of hydration. Lately, various regulating measures were imposed by governments and environmental organizations all over the world to seize the negative impact on the ecosystem resulting from huge amounts of solid waste materials being dumped in landfills causing major environmental problems. As a result, the utilization of alternative industrial waste constituents in construction materials has been the research focus for many years to evaluate their competence in SCC industry, and their feasibility as filler materials. In this study, ceramic waste powder (CWP) produced during the polishing process of ceramic tiles will be particularly investigated. Fresh and hardened tests are conducted to evaluate the influence of CWP on the rheological and mechanical properties of SCC mixtures. It was concluded that CWP can be used to successfully produce SCC mixtures with improved fresh and hardened properties. The inclusion of CWP up to 200 kg/m³ in SCC mixtures resulted in denser compacted mixtures with low permeability characteristics and high strength values. In addition to enhanced segregation resistance with good deformability and passing abilities for the mixtures under their own weight. The successful completion of …

Recycling Ceramic Waste Powder And Its Usage As An Alternative Ingredient In Concrete, Dima Mamoun Kanaan

Theses

Green environment is a challenging concern to accomplish in today’s world. This could be accomplished through an effective and beneficial recycling system through reusing solid waste materials. The study and exploration of alternative ingredients for concrete-making industry started more than five decades ago. Concrete that contains solid waste is referred to as “Green” concrete. Ceramic tiles are widely used in most structures; its production creates waste powder. Using ceramic waste powder (CWP) as an ingredient to partially replace cement in concrete will have a positive and progressive environmental impact in addition will help reserve natural resources. In this study, CWP …

Enhancing Snort Ids Performance Using Data Mining, Mohammed Ali Almaleki

Theses

Intrusion detection systems (IDSs) such as Snort apply deep packet inspection to detect intrusions. Usually, these are rule-based systems, where each incoming packet is matched with a set of rules. Each rule consists of two parts: the rule header and the rule options. The rule header is compared with the packet header. The rule options usually contain a signature string that is matched with packet content using an efficient string matching algorithm. The traditional approach to IDS packet inspection checks a packet against the detection rules by scanning from the first rule in the set and continuing to scan all …

Microalgae Cell Quantification Using Electrical Parameters, Leena Osama Fahmi Saqer

Theses

Electrical properties of living cells have been proven to play a significant role in understanding and characterizing the different biological activities of the cell. The objective of this work is to develop an electrical based technique for determining and estimating the number of microalgae cells in a suspension without the need for any sample treatments or pre-processing.

The proposed technique is based on the direct use of electrical capacitive model. The basic premise behind this idea is the electrical polarization of microalgae particles that get charged due to the application of an electric field. This wouldn’t cause any distortion or …

Carbon Dioxide Capture By Steel-Making Residues In A Fluidized Bed Reacto, Suhaib Mohammad Hameedi

Theses

Global warming is one of the most challenging problems facing societies these days, and it is known to be caused by the increasing emissions of Green House Gases (GHG's), mainly CO₂, from various human activities. To solve such a problem, or at least minimize its effects, several actions have been considered. One of these actions is carbon capture, which has many different options and techniques. This research focuses on the capture of CO₂ through reactions with steel-making residues, an alkaline solid by-product of the steel-making process. The aim is to sequester CO₂ and form carbonates, which …

Behavior Of Expansive Concrete-Filled Steel Tubular (Ecfst) Columns Under Axial Loadings, Abdulaziz Lazkani

Theses

Concrete-filled steel tubes (CFST) have been introduced in high-rise buildings in order to expedite construction and increase the confinement of concrete by the steel tube, and hence increase the capacity of the column cross-section. More recently, expansive additives (EAs) that counteract the shrinkage of concrete have been used in CFST to improve the bond between the concrete and steel tube. Although changing the confinement level exerted by the steel tube on concrete will have an impact on the behavior of CFSTs, little information is available regarding the influence of EAs on the mechanical characteristics of expansive concrete-filled steel tubular (ECFST) …

Numerical Analysis For The Hemodynamics In Unruptured Cerebral Aneurysms, Hashem Mhd Hicham Alargha

Theses

A cerebral aneurysm is a vascular disorder characterized by abnormal focal dilation of a brain artery which is considered as a serious and potentially life-threatening condition. Cerebral aneurysms affect around 2%-5% of adults and they are fatal and can rupture with an overall mortality rate of more than 50%. Through computational fluid dynamics investigation, this study is offering a closer look into the initiation growth and rupture of cerebral aneurysms. Four focus points are studied in this thesis which are sensitivity analysis of blood viscosity in aneurysms, the effect of cerebral aneurysm size on wall stresses and strain, hazard effects …

Thermal Analysis For The Purpose Of Fault Diagnosis Of Commercial Proton Exchange Membrane Fuel Cells (Pemfc), Reem Izzeldin Elsadig Salim

Theses

The world's awareness towards the amount of destruction that our extensive and ignorant lifestyles in the past few decades have imposed on the environment is growing day after day. This resulted in an increased governmental and research interest towards the development and use of green technology. Fuel Cells are one of the green technologies that received a major share of research interest in the past decade.

However, despite their promising features, Fuel Cell systems still lack a solid fault diagnosis and predictive maintenance study. There are numerous faults that have to be detected and diagnosed on a fuel cell power …

Oil Recovery By Polymer Flooding; Sensitivity Analysis To Technical Parameters, Rana Osama Fahmi Saqer

Theses

Numerous enhanced oil recovery techniques including miscible gas injection, chemical, thermal and other methods are applied at the third phase of production after both primary and secondary recovery have been exhausted. Polymer flooding is one of the chemical methods that recover more oil by decreasing the mobility of the system; by increasing the viscosity of the injected water that results in an improvement in the volumetric sweep efficiency.

The objective of this work is to asses and select the development options using polymer process that maximize oil recovery for a synthetic reservoir model where technical parameters are optimized thoroughly.

Reservoir …

Contact Angle And Ift Measurements Of Smart Water At Elevated Temperatures And Pressures For Evaluating Wettability In A Selected Carbonate Reservoir In The Uae, Jassim Abubacker Ponnambathayil

Theses

Water flooding has been regarded as a well-known secondary oil recovery method. In the recent years, extensive research on crude oil, brine, and rock systems has acknowledged that the composition of the injected water can change wetting properties of the reservoir during a water flood in a promising way to improve oil recovery. Hence, injection of “smart water” with correct salinity and composition is considered as a tertiary recovery method. The mechanism behind wettability alteration that is promoted by smart water injection has been a topic of discussion in carbonate and sandstone formations. In this work, some key properties of …

Oil Recovery By Flooding; Sensitivity Analysis To Technical Parameters, Rana Osama Fahmi Saqer

Theses

Numerous enhanced oil recovery techniques including miscible gas injection, chemical, thermal and other methods are applied at the third phase of production after both primary and secondary recovery have been exhausted. Polymer flooding is one of the chemical methods that recover more oil by decreasing the mobility of the system; by increasing the viscosity of the injected water that results in an improvement in the volumetric sweep efficiency.

The objective of this work is to asses and select the development options using polymer process that maximize oil recovery for a synthetic reservoir model where technical parameters are optimized thoroughly.

Reservoir …

Water Demand Forecasting In Al-Ain City, United Arab Emirates, Hebah Ibrahim Younis

Theses

Al-Ain city is the second largest city in the Emirate of Abu Dhabi and the third in the United Arab Emirates (UAE). Currently, desalination plants are the only source of municipal water in Al-Ain city with an average daily supply of 170 MIG. The expected natural population growth, in addition to future projects, will certainly put additional stress on the water resources in the city. Therefore, Al-Ain city seems to be in an urgent need for estimations of future water demands for achieving sustainable development. The main aim of this thesis is to introduce a water demand forecasting model to …