Awad Bodalal scite author profile

In Libya, the building sector is rapidly growing and consequently more energy is being expended in this field. Due to the nature of our climate, HVAC (Heating, Ventilation and Air-Conditioning) is the primary consumer of energy in buildings. A large portion of this energy may be saved through the use of insulation in order to increase the thermal efficiency. Energy saving techniques are just as important as the development of new energy sources. This paper investigates potential of energy consumption reduction, cost savings and pollutant emission prevention achieved by installing different insulation materials of optimum thickness in residential building wall in Libya. A degree day approach was used for these calculations. Cooling and heating degree day were first calculated for twenty locations across Libya. Then a systematic procedure for optimization of insulation material thickness, payback period and cost analysis was developed and applied for three different types of wall insulation materials. Finally, a correlation between the CDD/HDD and the optimum thickness of insulation materials is presented. The results show that, by introducing optimum insulation thickness of different insulation materials the energy consumption and emissions can be reduced by 70%-80% in comparison to a wall without insulation.

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Thermo-Mechanical Modeling of High-Strength Concrete Column Subjected to Moderate Case Heating Scenario in a Fire

Eltalhi

Bodalal

Shuaeib

et al. 2022

j. of mech. mater. and mech. res.

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This paper presents a numerically developed computer model to simulatethe thermal behavior and evaluate the mechanical performance of a fixedend loaded loaded High Strength Concrete Column (HSCC), subjectedto Moderate Case Heating Scenario (MCHS), in a hydrocarbon fire. Thetemperature distribution within the mid-height cross-sectional area of thecolumn was obtained to determine the thermal and mechanical responsesas a function of temperature. The governing two-dimensional transient heattransfer partial differential equation (PDE), was converted into a set of ordinary algebraic equations, subsequently, integrated numerically by usingthe explicit finite difference method, (FDM). A computer program, VisualBasic for Applications (VBA), was then developed to solve the set of ordinary algebraic equations by implementing the boundary as well as initialconditions. The predictions of the model were validated against experimental data from previous studies. The general behavior of the model as wellas the effect of the key model parameters were investigated at length in thereview. Finally, the reduction in the column’s compression strength and themodulus of elasticity was estimated using correlations from existing literature. And the HSCC failure load under fire conditions was predicted usingthe Rankine formula. The results showed that the model predictions of thetemperature distribution within the concrete column are in good agreementwith the experimental data. Furthermore, the increase in temperature ofthe reinforced concrete column, (RCC), due to fire resulted in a significantreduction in the column compression strength and considerably acceleratesthe column fire failure load.

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Thermal Simulation And Mechanical Performance Evaluation Of A Concrete Column Subjected To Sever Fire Scenario

Bodalal¹,

Shuaeibb²,

Eltalhi³

2020

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The Trend of the Bibliographical Output from Libyan Engineering Schools: A 30-Year Review From 1984-2013

Bodalal¹,

Mashite²

2018

ijsmr

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In this study, the research output from the major Libyan engineering schools was gathered and compared for the period of thirty years (from 1984 to 2013). The Elsevier database, Science Direct, was used to gather these publications and only engineering articles were included. A comparative analysis was performed on three levels; first a local comparison between the different faculties of engineering across Libya and secondly, a broader comparison between Libya and the neighboring METAL (Morocco, Egypt, Tunisia, Algeria and Libya) countries and finally, the third comparison was performed between Turkey and the METAL countries. In the local comparison, the output was normalized by the number of teaching staff while in the broader regional comparison, gross domestic product and population were used as standardization factors. When analyzing the research output of the Libyan engineering schools, it was observed that most publications came from Tripoli (47.1%, n=131) followed by Benghazi (25.9%, n=72), Misurata (4.1%, n=12) and Omar Al-Mukhtar (4.0%, n=11). However, when the number of staff members was taken into consideration, Benghazi University and Omar Al-Mukhtar University had higher research productivity levels than Tripoli University and Misurata University respectively. The regional comparison showed a clear difference between Libya and its neighbors, having the lowest output among them. Finally, it was found that across the three decades under study, Turkey produced more research than all the METAL countries combined. More attention needs to be paid to research and publications in Libyan engineering schools. A number of recommendations were made to help improve the publication rate in Libyan engineering faculties.

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Awad Bodalal

Experimental investigations of heat transfer enhancement from rectangular duct roughened by hybrid ribs

Calculation of Annual Heating and Cooling Energy Requirements for Residential Building in Different Climate Zones in Libya

Thermo-Mechanical Modeling of High-Strength Concrete Column Subjected to Moderate Case Heating Scenario in a Fire

Thermal Simulation And Mechanical Performance Evaluation Of A Concrete Column Subjected To Sever Fire Scenario

The Trend of the Bibliographical Output from Libyan Engineering Schools: A 30-Year Review From 1984-2013

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