Rafat Al-Waked scite author profile

SUMMARYThe thermal performance of a natural draft dry cooling tower (NDDCT) under a crosswind has been investigated using a general-purpose CFD code. A three-dimensional study using the standard k-e turbulence model to simulate airflow in and around an NDDCT has been conducted. A parametric study has been carried out to examine the effect of crosswind velocity profile and air dry-bulb temperature on the thermal performance of an NDDCT. Two approaches have been considered in this study to quantify the crosswind effect. Firstly, simulations have been conducted at the nominal conditions and crosswind effect has been represented by thermal effectiveness parameter. Secondly, the ejected heat from the NDDCT has been maintained at a constant value (285 MW) and the crosswind effect has been represented by the change in the cooling tower approach parameter. After quantifying the effect of the crosswind on the thermal performance, windbreak walls have been introduced as a means of reducing this effect. The results in this paper show the importance of considering the crosswind velocity profile. Moreover, the introduction of windbreak walls has indicated an improvement in reducing the thermal performance losses due to the crosswind.

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The Effect of Windbreak Walls on the Thermal Performance of Natural Draft Dry Cooling Towers

Al-Waked¹,

Behnia

2005

Heat Transfer Engineering

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CFD simulation of wet cooling towers

Al-Waked¹,

Behnia

2006

Applied Thermal Engineering

109

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Waste-to-energy potential in the Western Province of Saudi Arabia

Ouda

Raza

Al-Waked

et al. 2017

Journal of King Saud University - Engineering Sciences

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Waste-to-energy (WTE) is a viable option for municipal solid waste (MSW) management and a renewable energy source. MSW is a chronic problem in Saudi Arabia and more specifically in Saudi Urban areas. The MSW practices in KSA are simply done by collecting the waste and dumping it in open landfill sites. KSA is considering WTE as a potential renewable energy source that can contribute to electricity demand in the Kingdom. This research aims to assess potential contribution of WTE facility to meet electricity demand in the three main cities in the Western Province of Saudi Arabia and to provide an alternative solution to landfills. Three scenarios for WTE utilization were developed: Mass Burn, Mass Burn with recycling, and refused derived fuel (RDF) with biomethanation. The Mass Burn scenario implies full waste stream incineration; the Mass Burn with recycling scenario considers segregation of reusable materials and the waste leftover for incineration; while RDF with biomethanation considers segregation of general waste stream into inorganic and organic waste and utilizes organic waste for biomethanation and inorganic for RDF. The analyses were completed for Jeddah, Makkah, and Madina cities; with current total population of about 6.3 million. The results show that Jeddah has the potential to produce about 180 MW of electricity based on incineration scenario; about 11.25 MW based on incineration with recycling scenario; and about 87.3 MW based RDF with biomethanation scenario by the year 2032. These

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Membrane heat exchanger in HVAC energy recovery systems, systems energy analysis

Nasif

Al-Waked

Morrison

et al. 2010

Energy and Buildings

112

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CFD simulation of air to air enthalpy heat exchanger

Al-Waked

Nasif

Morrison

et al. 2013

Energy Conversion and Management

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Crosswinds effect on the performance of natural draft wet cooling towers

Al-Waked

2010

International Journal of Thermal Sciences

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Rafat Al-Waked

Waste to energy potential: A case study of Saudi Arabia

The performance of natural draft dry cooling towers under crosswind: CFD study

The Effect of Windbreak Walls on the Thermal Performance of Natural Draft Dry Cooling Towers

CFD simulation of wet cooling towers

Waste-to-energy potential in the Western Province of Saudi Arabia

Membrane heat exchanger in HVAC energy recovery systems, systems energy analysis

CFD simulation of air to air enthalpy heat exchanger

Crosswinds effect on the performance of natural draft wet cooling towers

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