Wael H. Ahmed scite author profile

In recent years, an increasing concern of environmental issues of emissions, in particular global warming and the limitations of energy resources has resulted in extensive research into novel technologies of generating electrical power. Thermoelectric power generators have emerged as a promising alternative green technology due to their distinct advantages. Thermoelectric power generation offer a potential application in the direct conversion of waste-heat energy into electrical power where it is unnecessary to consider the cost of the thermal energy input. The application of this alternative green technology in converting waste-heat energy directly into electrical power can also improve the overall efficiencies of energy conversion systems. In this paper, a background on the basic concepts of thermoelectric power generation is presented and recent patents of thermoelectric power generation with their important and relevant applications to waste-heat energy are reviewed and discussed.

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Air-lift pumps characteristics under two-phase flow conditions

Kassab

Kandil

Warda

et al. 2009

International Journal of Heat and Fluid Flow

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Experimental and analytical investigations of airlift pumps operating in three-phase flow

Kassab

Kandil

Warda

et al. 2007

Chemical Engineering Journal

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Coplanar capacitance sensors for detecting water intrusion in composite structures

Nassr

Ahmed

El‐Dakhakhni

2008

Meas. Sci. Technol.

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Composite materials are becoming more affordable and widely used for retrofitting, rehabilitating and repairing reinforced concrete structures designed and constructed under older specifications. However, the mechanical properties and long-term durability of composite materials may degrade severely in the presence of water intrusion. This study presents a new non-destructive evaluation (NDE) technique for detecting the water intrusion in composite structures by evaluating the dielectric properties of different composite system constituent materials. The variation in the dielectric signatures was employed to design a coplanar capacitance sensor with high sensitivity to detect such defects. An analytical model was used to study the effect of the sensor geometry on the output signal and to optimize sensor design. A finite element model was developed to validate analytical results and to evaluate other sensor design-related parameters. Experimental testing of a concrete specimen wrapped with composite laminate and containing a series of pre-induced water intrusion defects was conducted in order to validate the concept of the new technique. Experimental data showed excellent agreement with the finite element model predictions and confirmed sensor performance.

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Capacitance Sensors for Void-Fraction Measurements and Flow-Pattern Identification in Air–Oil Two-Phase Flow

Ahmed

2006

IEEE Sensors J.

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Wael H. Ahmed

Thermoelectric Power Generation Using Waste-Heat Energy as an Alternative Green Technology

Air-lift pumps characteristics under two-phase flow conditions

Experimental and analytical investigations of airlift pumps operating in three-phase flow

Coplanar capacitance sensors for detecting water intrusion in composite structures

Capacitance Sensors for Void-Fraction Measurements and Flow-Pattern Identification in Air–Oil Two-Phase Flow

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