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1. Simulation and Experimental Investigation of Performance and Flow Behavior for Steam Ejector Refrigeration System

Author

Shakir Jasim, Akram W. Ezzat, and Eric Hu

Subjects
Experimental test, Numerical simulation, Steam ejector, Shock waves, System performance, Engineering (General). Civil engineering (General), TA1-2040
Abstract

The ejector refrigeration system is a desirable choice to reduce energy consumption. A Computational Fluid Dynamics CFD simulation using the ANSYS package was performed to investigate the flow inside the ejector and determine the performance of a small-scale steam ejector. The experimental results showed that at the nozzle throat diameter of 2.6 mm and the evaporator temperature of 10oC, increasing boiler temperature from 110oC to 140oC decreases the entrainment ratio by 66.25%. At the boiler temperature of 120oC, increasing the evaporator temperature from 7.5 to 15 oC increases the entrainment ratio by 65.57%. While at the boiler temperature of 120oC and the evaporator temperature of 10oC, increasing the nozzle throat diameter from 2.4 to 2.8 mm decreases the entrainment ratio by 40%. The numerical results showed that reducing the condenser back pressure or increasing the primary fluid temperature, secondary fluid temperature, and nozzle throat diameter moves the second shock waves in the downstream direction. It could be concluded that the second shock series position detects the ejector operation mode. The ejector runs in critical mode if the second shock series position is close to the diffuser. In contrast, if the second shock series position moves toward the upstream, the ejector runs in subcritical mode.

Published
2023
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2. Water Flow Visualization And Velocity Measurement Using Hydrogen Bubble Generation Technique In Low Speed Open Channel

Author

Akram W. Ezzat and Taif M. Mansoor

Subjects
flow visualization, hydrogen bubble visualization method., Engineering (General). Civil engineering (General), TA1-2040
Abstract

Visualization of water flow around different bluff bodies at different Reynolds number ranging (1505 - 2492) was realized by designing and building a test rig which contains an open channel capable to ensure water velocity range (4-8cm/s) in this channel. Hydrogen bubbles generated from the ionized water using DC power supply are visualized by a light source and photographed by a digital camera. Flow pattern around a circular disk of (3.6cm) diameter and (3mm) thickness, a sphere of (3.8cm) diameter and a cylinder of (3.2cm) diameter and (10cm) length are studied qualitatively. Parameters of the vortex ring generated in the wake region of the disk and the separation angle of water stream lines from the surface of the sphere are plotted versus Reynolds number. Proper empirical formulas are investigated to describe the behavior of vortex ring parameters and separation angle versus Reynolds number. Vortex growth history in the wake region of the cylinder is identified by analyzing the photographs extracted from the digital camera used for photography purposes. Water velocity measurement in the upstream region and near the edge of the disk is conducted at different Reynolds number by measuring the length of Hydrogen bubble pulse streaks generated in the upstream region of the disk using electronic pulse generator circuit. Special electronic circuit is designed and fabricated to cut off the applied DC voltage. The calibration of the designed pulse generator is conducted using the proper oscilloscope device. The pictures extracted from the digital camera are used for analyzing the generated Hydrogen pulses.

Published
2023
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3. Experimental Study of Power Increase Transient in Heat Generation Systems Simulated By Immersed Heat Source

Author

Akram W. Ahmed Ezzat and Sarmad A. Abdul Hussain

Subjects
CHFprediction, Sub-cooled flow boiling, Heat transfer parameters, Nucleate boiling, Concentric annular channel., Engineering (General). Civil engineering (General), TA1-2040
Abstract

Theoretical and experimental investigations of the transient heat transfer parameters of constant heat flux source subjected to water flowing in the downward direction in closed channel are conducted. The power increase transient is ensured by step change increase in the heat source power. The theoretical investigation involved a mathematical modeling for axially symmetric, simultaneously developing laminar water flow in a vertical annulus. The mathematical model is based on one dimensional downward flow. The boundary conditions of the studied case are based on adiabatic outer wall, while the inner wall is subjected to a constant heat flux. The heat & mass balance equation derived for specified element of bulk water within the annulus and solved by using Laplace method to determine the variation of bulk water temperature. The experimental investigation included a set of experiments carried out to investigate the temperature variation along the heat source for power increase transient of (5%, 10%, 15% and 20%) of its nominal value during and after reaching the steady state condition. Estimation of the boiling safety factor is predicted and compared with the theoretical values. Reliable agreement between experimental and theoretical approaches is reached. The later showed that the elapsed time required for the clad surface temperature to reach its steady state values after each transient is less than that related to bulk water temperature. New correlation for prediction of critical heat flux, CHF based on inlet water temperature and water mass flux are investigated and compared with CHF correlations obtained from previous researches. Specific recommendations concerned with preventive measured required to eliminate the effect of boiling crisis are concluded based on theoretical and experimental results related to transients setting times obtained from each case study.

Published
2023
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5. Investigation of Optimum Heat Flux Profile Based on the Boiling Safety Factor

Author

Akram W. Ezzat and Sajida Lafta Ghashim

Subjects
boiling safety factor, heat flux profile, parameters of heat transfer, horizontal pipe, water flow rate., Engineering (General). Civil engineering (General), TA1-2040
Abstract

An experimental study is conducted to investigate the effect of heat flux distribution on the boiling safety factor of its cooling channel. The water is allowed to flow in a horizontal circular pipe whose outlet surface is subjected to different heat flux profiles. Four types of heat flux distribution profiles are used during experiments: (constant distribution profile, type a, triangle distribution profile with its maximum in channel center, type b, triangle distribution profile with its maximum in the channel inlet, type c, and triangle distribution profile with its maximum in the channel outlet, type d). The study is conducted using heat sources of (1000 and 2665W), water flow rates of (5, 7 and 9 lit/min). The water temperature at cooling channel inlet is kept constant at (25°C). Copper test section of (0.6 m) length (0.025m) inner diameter is used during the experiments. The electrical heater used for water heating is wrapped around the copper pipe covering (50 cm) of its length. Calibrated thermocouples are distributed along pipe surface at distances (0.1, 0.2, 0.3, 0.4 and 0.5 m) from pipe inlet to measure pipe surface temperature. The results shows that the heat source with heat flux profile of type (c) is the most reliable one from thermo-hydraulic safety point of view for both types of heat sources, as it ensures a maximum boiling safety factor (K) of (1.6, 1.7, 2) at water flow rates of (5, 7 and 9 lit/min) respectively based on maximum heat capacity of (2665 w), while the heat source with heat flux profile of type (d) which posses minimum boiling safety factors of (1, 1.2, 1.3) at water flow rates of (5, 7 and 9 lit/min) respectively based on same heat capacity value is the worst one from same point of view.

Published
2019
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6. Effect of Air Bubbles on Heat Transfer Coefficient in Turbulent Convection Flow

Author

Akram W. Ezzat, Ass. Prof. Dr., Najdat N. Abdullah, Prof. Dr., and Sajida Lafta Ghashim, PhD. student

Subjects
turbulent flow, two phase flow, enhancement of heat transfer, air bubbles., Engineering (General). Civil engineering (General), TA1-2040
Abstract

Experimental and numerical studies have been conducted for the effect of injected air bubbles on the heat transfer coefficient through the water flow in a vertical pipe under the influence of uniform heat flux. The investigated parameters were water flow rate of (10, 14 and 18) lit/min, air flow rate of (1.5, 3 and 4) lit/min for subjected heat fluxes of (27264, 36316 and 45398) W/m2. The energy, momentum and continuity equations were solved numerically to describe the motion of flow. Turbulence models k-ε was implemented. The mathematical model is using a CFD code Fluent (Ansys15). The water was used as continuous phase while the air was represented as dispersed. phase. The experimental work includes design, build and instrument a test rig for that purpose. A circular vertical copper pipe test section of (length=0.7m, diameter= 0.05m, thickness= 1.5mm) is . designed and constructed, heated by an electrical heater fixed on its outer surface. Water . temperature at inlet is kept constant at (32°C). Water inlet and outlet temperatures, as well as radial temperature distribution within the pipe at seven sections along it between pipe surface and its center are measured. The results revealed that the secondary flow created by air bubbles have significant effects on heat transfer enhancement and temperature profile. It is observed, that averaged Nusselt number enhancement for low heat flux of 27264 W/m2 and 4 lit/min air bubbles was 33.3 % and 23% in numerical and experimental, respectively.

Published
2017

9. First-in-Human Multicenter Experience of the Newest Generation Supra-Annular Self-Expanding Evolut FX TAVR System

Author

Zaid, Syed, Attizzani, Guilherme F., Krishnamoorthy, Parasuram, Yoon, Sung-Han, Palma Dallan, Luis A., Chetcuti, Stanley, Fukuhara, Shinichi, Grossman, P. Michael, Goel, Sachin S., Atkins, Marvin D., Kleiman, Neal S., Puri, Rishi, Bakhtadze, Beka, Byrne, Timothy, Ibrahim, Akram W., Grubb, Kendra J., Tully, Andy, Herrmann, Howard C., Faggioni, Michela, Ramlawi, Basel, Khera, Sahil, Lerakis, Stamatios, Dangas, George D., Kini, Annapoorna S., Sharma, Samin K., Reardon, Michael J., and Tang, Gilbert H.L.

Published
2023
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10. Parametric study of low‐temperature solar‐assisted flash evaporation desalination systems using two‐phase water–steam ejector.

Author

Mahdi, Mustafa S., Ezzat, Akram W., and Hu, Eric

Subjects
*SOLAR water heaters, *FLUID flow, *DISTILLED water, *NOZZLES, *SALINITY
Abstract

This study aims to investigate a two‐phase subsonic ejector added to a flash evaporation desalination system to increase the system productivity of distilled water. The flash evaporation was of low‐temperature condition that it could be powered by a flat and evacuated tube solar water heater. A parametric study of superheat degree (range 5°C–25°C), back pressure (range 10–30 kPa of absolute pressure), primary fluid flow rate (range 1–3 L/min), nozzle diameter (range 1–3 mm), and salinity concentration (range 0%–7%) were investigated to examine the system productivity and the ejector performance in terms of its entertainment ratio under different operating conditions. Results show that the inclusion of the ejector led to an average of 99% improvement in system productivity, primarily through the efficient secondary flow. Moreover, the effect of the studied parameter was more pronounced in the considered flash evaporation desalination system as it has two places where flash evaporation occurs, compared with the normal system where the flash evaporation occurs at one place. All in all, the application of the ejector could enhance the system's productivity significantly under different operating conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Constructal design of a PCM cylindrical heat sink with three‐branched, two‐stages dendritic tubes.

Author

Ridha, Hind Dhia'a and Ezzat, Akram W.

Subjects
*PROSTHETICS, *TUBES, *HEAT sinks, *MATERIALS testing, *PHASE change materials, *LATENT heat, *HEAT capacity, *PRESSURE drop (Fluid dynamics)
Abstract

Amputees who use prosthetic limbs suffer from the problem of high contact temperature between the socket of the prosthetic limb and the amputated part and lack of evaporation of sweat. These conditions lead to discomfort and failure to perform functions properly. In addition, these conditions help generate ulcers and accumulate harmful bacteria in this area. This paper presents a heatsink design to extract heat from the contact area. A cylindrical heat sink is designed for phase‐changing materials with three branched tubes in two stages. The current heat sink is used to cool the contact area between the amputated part and the socket in the lower prostheses. Three distributions of pipe branches are proposed. The distribution and pipe lengths were obtained using a constructal design method. In the constructal design, the lengths of the branched tubes were the degrees of freedom, the objective function was the minimization of the inlet temperature to the heat sink, and the constraint was the volume of the cylindrical heat sink. The metabolic heat transfer during exercise was estimated and its value was used to calculate the size of the cylindrical heatsink and the selection of the phase change material by testing three of them: water, tridecane, and dodecane. It was found that water gives the highest latent heat of melting and the lowest volume in addition to its availability. On the other hand, two cooling fluids were tested: water and air. It was found that water as a cooling fluid gave the lowest flow and the largest heat capacity. Constructal theory was used to design a cylindrical heat sink using branched tubes for the coolant in two steps: the first with three branches, and the second with nine branches. The degree of freedom for constructal theory was the length of the branches through the choice of their end locations. It was found that the branches of the highest length led to a reduction in temperature from 40°C to 15.48°C compared with the single tube, which reduced the temperature to 23.87°C. All tests recorded a pressure drop within the acceptable range of 3.1–5.43 Pa for the branches examined. The research demonstrated that using constructal theory achieved the best thermal dissipation within a restricted volume. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Outcomes Following Shock Aortic Valve Replacement: Transcatheter Versus Surgical Approaches

Author

Maidman, Samuel D., Lisko, John C., Kamioka, Norihiko, Chen, Edward P., Mavromatis, Kreton, Halkos, Michael, Stewart, James P., Lattouf, Omar M., Keeling, W. Brent, Gleason, Patrick, Sommerfeld, Alex J., Maini, Aneesha, Ibrahim, Akram W., Grubb, Kendra J., Leshnower, Bradley G., Guyton, Robert, Greenbaum, Adam B., Block, Peter C., Babaliaros, Vasilis C., and Devireddy, Chandan

Published
2020
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22. Spatial mapping of gene expression in the salivary glands of the dengue vector mosquito, aedes aegypti

Author

Juhn, J, Naeem-Ullah, U, MacIel Guedes, BA, Majid, A, Coleman, J, Paolucci Pimenta, PF, Akram, W, James, AA, and Marinotti, O

Abstract

Background. Aedes aegypti mosquitoes are the main vectors of dengue viruses to humans. Understanding their biology and interactions with the pathogen are prerequisites for development of dengue transmission control strategies. Mosquito salivary glands are organs involved directly in pathogen transmission to vertebrate hosts. Information on the spatial distribution of gene expression in these organs is expected to assist in the development of novel disease control strategies, including those that entail the release of transgenic mosquitoes with impaired vector competence. Results. We report here the hybridization in situ patterns of 30 transcripts expressed in the salivary glands of adult Ae. aegypti females. Distinct spatial accumulation patterns were identified. The products of twelve genes are localized exclusively in the proximal-lateral lobes. Among these, three accumulate preferentially in the most anterior portion of the proximal-lateral lobe. This pattern revealed a salivary gland cell type previously undescribed in Ae. aegypti, which was validated by transmission electron microscopy. Five distinct gene products accumulate in the distal-lateral lobes and another five localize in the medial lobe. Seven transcripts are found in the distal-lateral and medial lobes. The transcriptional product of one gene accumulates in proximal- and distal-lateral lobes. Seven genes analyzed by quantitative PCR are expressed constitutively. The most abundant salivary gland transcripts are those localized within the proximal-lateral lobes, while previous work has shown that the distal-lateral lobes are the most active in protein synthesis. This incongruity suggests a role for translational regulation in mosquito saliva production. Conclusions. Transgenic mosquitoes with reduced vector competence have been proposed as tools for the control of dengue virus transmission. Expression of anti-dengue effector molecules in the distal-lateral lobes of Ae. aegypti salivary glands has been shown to reduce prevalence and mean intensities of viral infection. We anticipate greater efficiency of viral suppression if effector genes are expressed in all lobes of the salivary glands. Based on our data, a minimum of two promoters is necessary to drive the expression of one or more anti-dengue genes in all cells of the female salivary glands. © 2011 Juhn et al; licensee BioMed Central Ltd.

Published
2011

25. Simulation and Experimental Investigation of Performance and Flow Behavior for Steam Ejector Refrigeration System.

Author

Jasim, Shakir J., Ezzat, Akram W., and Hu, Eric

Subjects
STEAM flow, COMPUTATIONAL fluid dynamics, SHOCK waves, NOZZLES, DIFFUSERS (Fluid dynamics)
Abstract

Copyright of Journal of Engineering (17264073) is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) 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
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28. Comparative Numerical Study of Melting Behavior of a Phase Change Material in Shell and Tube Latent Heat Energy Storage Unit With Longitudinal, Spiral, and Annular Fins in Horizontal and Vertical Orientations

Author

Mustafa S. Mahdi, Akram W. Ezzat, and Hameed B. Mahood

Subjects
Fluid Flow and Transfer Processes, General Engineering, General Materials Science, Condensed Matter Physics
Abstract

Owing to the high storage capacity of the latent heat energy storage unit (LHSU), it is preferred among other types of thermal energy storage to overcome the mismatch between energy supply and demand. The orientation of the LHSU affects the melting process of the phase change material (PCM), and this effect could vary according to the fin shape of the LHSU. Thus, the present study aims to numerically examine the impact of vertical and horizontal orientations on the longitudinal, spiral, and annular finned shell and tube LHSUs. The computational fluid dynamics simulation solved the time-dependent conservation equations of mass, momentum, and energy in the three-dimensional domain. The enthalpy-porosity and the Boussinesq approximation were used respectively to simulate the PCM phase change and the change in density. The results show that the LHSUs have completely different behavior in the vertical orientation than in the horizontal orientation due to the various obstructions to the natural convection flow induced by the fins, depending on the fin shape, and the direction of natural convection flow. In the vertical orientation, the annular finned LHSU has a faster melting rate than the longitudinal finned LHSU by 25.6%. In contrast, in the horizontal orientation, the longitudinal finned LHSU melted more rapidly than the annular finned LHSU by 52.5%. The spiral finned LHSU performance was moderate between the two other finned LHSUs in both orientations due to its spiral shape that lies between the shape of the annular and longitudinal fins.

Published
2023

31. Production of solar abundances for nuclei beyond Sr: The s- and r-process perspectives

Author

Busso, M. M., Kratz, K. -L., Palmerini, S., Akram, W., and Antonuccio-Delogu, V.

Subjects
stars, s-processes, nuclear astrophysics, weak interactions, nucleosynthesis, Astronomy and Astrophysics, nucleosynthesis, s-processes, r-processes
Abstract

We present the status of nucleosynthesis beyond Sr, using up-to-date nuclear inputs for both the slow (s-process) and rapid (r-process) scenarios of neutron captures. It is now widely accepted that at least a crucial part of the r-process distribution is linked to neutron star merger (NSM) events. However, so far, we have found only a single direct observation of such a link, the kilonova GW170817. Its fast evolution could not provide strict constraints on the nucleosynthesis details, and in any case, there remain uncertainties in the local r-process abundance patterns, which are independent of the specific astrophysical site, being rooted in nuclear physics. We, therefore, estimate the contributions from the r-process to solar system (S.S.) abundances by adopting the largely site-independent waiting-point concept through a superposition of neutron density components normalized to the r-abundance peaks. Nuclear physics inputs for such calculations are understood only for the trans-Fe nuclei; hence, we restrict our computations to the Sr–Pr region. We then estimate the s-process contributions to that atomic mass range from recent models of asymptotic giant branch stars, for which uncertainties are known to be dominated by nuclear effects. The outcomes from the two independent approaches are then critically analyzed. Despite the remaining problems from both sides, they reveal a surprisingly good agreement, with limited local discrepancies. These few cases are then discussed. New measurements in ionized plasmas are suggested as a source of improvement, with emphasis on β-decays from unstable Cs isotopes. For heavier nuclei, difficulties grow as r-process progenitors lie far off experimental reach and poorly known branchings affect s-processing. This primarily concerns nuclei that are significantly long-lived in the laboratory and have uncertain decay rates in stars, e.g., Lu176 and Re187. New measurements are urgently needed for them, too.

Published
2022

33. Outcomes Following Shock Aortic Valve Replacement: Transcatheter Versus Surgical Approaches

Author

Adam Greenbaum, W. Brent Keeling, Akram W. Ibrahim, Chandan Devireddy, Edward P. Chen, Norihiko Kamioka, Omar M. Lattouf, James Stewart, Peter C. Block, Alex J. Sommerfeld, Samuel Maidman, Vasilis Babaliaros, Michael E. Halkos, Patrick Gleason, Robert A. Guyton, Kendra J. Grubb, Aneesha Maini, Kreton Mavromatis, Bradley G. Leshnower, and John Lisko

Subjects
medicine.medical_specialty, medicine.medical_treatment, 030204 cardiovascular system & hematology, Transcatheter Aortic Valve Replacement, 03 medical and health sciences, 0302 clinical medicine, Valve replacement, Aortic valve replacement, Risk Factors, Internal medicine, medicine, Risk of mortality, Humans, 030212 general & internal medicine, Renal replacement therapy, Retrospective Studies, Heart Valve Prosthesis Implantation, business.industry, Retrospective cohort study, Aortic Valve Stenosis, General Medicine, medicine.disease, Stenosis, Treatment Outcome, Aortic Valve, Shock (circulatory), Cardiology, Hemodialysis, medicine.symptom, Cardiology and Cardiovascular Medicine, business
Abstract

To compare transcatheter aortic valve replacement (TAVR) with surgical aortic valve replacement (SAVR) for patients in shock.There are minimal data on the clinical and echocardiographic outcomes for patients in shock that undergo TAVR and no data comparing these outcomes to similar patients undergoing SAVR.This is a single center, retrospective cohort study of patients having Society of Thoracic Surgeons (STS)-defined urgent or emergent AVR for aortic stenosis with clinical signs and symptoms of shock. Inclusion criteria were based on the Society of Cardiovascular AngiographyInterventions (SCAI) shock consensus statement and included: the need for inotropic or vasopressor agents, mechanical ventilation, continuous renal replacement therapy or newly initiated hemodialysis, and/or utilization of mechanical hemodynamic support. Clinical and echocardiographic outcomes for TAVR and SAVR were compared.Thirty-seven patients met the inclusion criteria for this study (17 TAVR, 20 SAVR). TAVR patients had a higher STS Predicted Risk of Mortality (PROM) score of 22.3% compared to 11.8% for SAVR patients (p = 0.001). No significant differences were found in baseline echocardiographic results. TAVR procedures required less procedure room time (185.9 min TAVR, 348.5 min SAVR, p 0.001) and fewer intraoperative packed red blood cell (pRBC) transfusions (0.2 units TAVR, 3.4 units SAVR, p 0.001). TAVR patients also had lower rates of prolonged postoperative ventilation compared to SAVR patients (38.5% TAVR, 75.0% SAVR, p = 0.047). TAVR and SAVR had similar rates of mortality at discharge (2 TAVR, 1 SAVR, p = 0.584), 30-days (2 TAVR, 1 SAVR, p = 0.584), and 1-year (8 TAVR, 5 SAVR, p = 0.149).Despite a higher risk TAVR group, patients in shock undergoing either TAVR or SAVR have similar 30-day mortality. At one year, SAVR patients have a numerically better, though not statistically significant, survival. These findings support the use of TAVR for patients in shock with aortic stenosis.

Published
2020

34. Investigation on the long-term performance of solar thermal powered adsorption refrigeration system based on hourly accumulated daily cycles

Author

Akram W. Ezzat, Eric Hu, Ji Wang, Antoni Blazewicz, Wang, Ji, Hu, Eric, Blazewicz, Antoni, and Ezzat, Akram W

Subjects
Fluid Flow and Transfer Processes, Daytime, Meteorology, 020209 energy, Change patterns, Refrigeration, long-term performance, 02 engineering and technology, Condensed Matter Physics, Term (time), 020401 chemical engineering, Adsorption refrigeration, Sunshine duration, Weather data, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, possible hourly cycles, 0204 chemical engineering, adsorption refrigeration, activated carbon/methanol
Abstract

When simulating a daily performance of a solar thermal powered adsorption refrigeration system, daily weather data (i.e. daily maximum and minimum ambient temperatures and daily total solar radiation) are normally used to simulate a 24-h refrigeration cycle. However, the simulation obtained in this way is not that accurate, due to which could not reflect real hourly processes during the daytime. In present study, hourly weather data, especially during the isosteric and desorption processes in the sunshine duration, has been utilised to simulate hourly accumulated daily cycles. Seven possible cycles, depending on hourly weather change patterns, have been identified in this study. It has been found that the desorption process is not necessarily an isobar process as previous studies assumed, which depends on real hourly weather changes. Therefore, an improved mathematical model has been developed and validated. It has been found that the accuracy of the simulation with hourly weather data has been improved by up to 5%, compared to that of the model using daily weather data. The simulated error in one-day performance would be accumulated if a long-time performance of such a system was required to be simulated. Therefore, a case-study is conducted to demonstrate the difference between the two models when simulating a daily performance under three typical weather conditions. Refereed/Peer-reviewed

Published
2021

37. Simulation of accumulated performance of a solar thermal powered adsorption refrigeration system with daily climate conditions

Author

Akram W. Ezzat, Antoni Blazewicz, Ji Wang, Eric Hu, Wang, J, Hu, E, Blazewicz, A, and Ezzat, AW

Subjects
Meteorology, Solar thermal energy, 020209 energy, Mechanical Engineering, daily climate conditions, Refrigeration, 02 engineering and technology, Building and Construction, Cooling capacity, Pollution, Industrial and Manufacturing Engineering, General Energy, 020401 chemical engineering, Adsorption refrigeration, accumulated performance, Weather data, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, 0204 chemical engineering, Electrical and Electronic Engineering, activated carbon/methanol, adsorption refrigeration, Civil and Structural Engineering
Abstract

Accumulated performance of an activated carbon/methanol adsorption refrigeration system driven by solar thermal energy, has been studied under various climate conditions. The previous studies mainly focus on the individual daily cycle with the assumption that the system restores back to its original point every day, regardless of a real climate condition. In reality, for such a refrigeration system, its daily performance would depend not only on the current day's weather conditions, but also on the previous day's situation, i.e. the current day cycle starts from where the previous day cycle ends, which is not necessarily the starting point of the previous day. There might be some leftover liquid at the end of a particular day, depending on the weather conditions during the night. A new configuration, which can accumulate the cooling capacity without removing ice daily, has been established. Possible cycles of such a system have been identified with consideration of realistic daily climate conditions. A desktop case-study was conducted to demonstrate the difference in the simulation of accumulated performance by two models, with the ideal assumption and real daily weather data respectively. The ice-making performance and COPs simulated by two models have been compared and evaluated in this study. usc Refereed/Peer-reviewed

Published
2018

39. EFFECT OF ANTHROPOGENIC LAND-USE ON ARTHROPODS DIVERSITY IN SUB-TROPICAL PUNJAB, PAKISTAN.

Author

Sajjad, A., Akram, W., Ali, S., Ali, M., Ullah, M. I., and Ahmad, A.

Subjects
*ARTHROPOD diversity, *ENDANGERED species, *AUTUMN, *NUMBERS of species, *AGRICULTURAL exhibitions, *ARTHROPODA, *ANTS
Abstract

Present study was conducted to assess the effect of different land-use types i.e., agriculture, planted forest, grassy plots and desert on the diversity of soil crawling arthropods at the university campus of The Islamia University of Bahawalpur, (Punjab) Pakistan. Weekly data was recorded using pit fall traps during spring and fall seasons, 2018. The total sampling efforts of 192 hours in each land-use type resulted in 2842 individuals of 115 taxa. Hymenoptera -largely comprising of three ant species, Monomorium indicum, Monomorium pharaonis and Camponotus angusticollis - was the most abundant taxon in all the four land-use types followed by Coleoptera, Arachnida and Hemiptera. The maximum number of distinct species (only found in a specific landscape) was found in grassy plots and the minimum in agricultural landscapes i.e., 24 and 9, respectively. Only five species were found common in all the four landscapes i.e., M. indicum, M. pharaonis, C. angusticollis (ants), Lycosa poonaensis (spider) and Patanga succincta (grasshopper). Agricultural land showed the higher values of evenness and Simpson diversity indices than that of grassy plots, suggesting more even distribution of species. The lowest value of Chao-1 indexes -suggesting the minimum number of rare species in agricultural landscape-further confirmed this finding. Results of present study suggest that agriculture is not a threat to soil arthropods biodiversity except some rare species. Moreover, since grassy plots and forests exhibited greater values of Shannon-Wiener, Simpson and Chao-1 indices than desert, plantation of forests in the desert and establishment of grassy plots within or near the buildings may encourage diversity of soil arthropods and associated taxa in higher tropic levels. [ABSTRACT FROM AUTHOR]

Published
2022
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40. Contrast-Induced Nephropathy Following Coronary Angiography: Role of Pre-Procedural Hyperglycemia as an Emerging Risk Factor

Author

Akram W. Ibrahim

Subjects
Coronary angiography, medicine.medical_specialty, business.industry, Emerging risk, MEDLINE, Contrast-induced nephropathy, General Medicine, medicine.disease, Coronary Angiography, Risk Factors, Internal medicine, Hyperglycemia, medicine, Cardiology, Humans, Kidney Diseases, Cardiology and Cardiovascular Medicine, business
Published
2020

41. Role of Intravascular Ultrasound in Guiding Complex Percutaneous Coronary Interventions

Author

Brandon Quintana and Akram W. Ibrahim

Subjects
medicine.medical_specialty, lcsh:Diseases of the circulatory (Cardiovascular) system, Percutaneous, Valve surgery, medicine.medical_treatment, Psychological intervention, 030204 cardiovascular system & hematology, Coronary artery disease, 03 medical and health sciences, 0302 clinical medicine, Intravascular ultrasound, medicine, Diseases of the circulatory (Cardiovascular) system, 030212 general & internal medicine, Myocardial infarction, cardiovascular diseases, medicine.diagnostic_test, business.industry, Percutaneous coronary intervention, medicine.disease, equipment and supplies, surgical procedures, operative, lcsh:RC666-701, RC666-701, Angiography, Radiology, Cardiology and Cardiovascular Medicine, business
Abstract

Complex percutaneous coronary interventions (PCIs) are increasing in frequency due to the rapid advances in interventional cardiology. This has had a favorable impact on patients with extensive coronary artery disease and multiple comorbidities with regard to symptomatic relief and mortality. With this increase, cardiologists must develop a standardized way to approach complex PCI in an era in which angiographic guidance alone yields suboptimal results. Intravascular ultrasound (IVUS) has been shown to improve outcomes with better preprocedural planning, improved stent placement, and larger stent diameters. Considering the supportive data, the use of IVUS is crucial in all cases of complex PCI.

Published
2020

42. Investigation of air cooler fan start-up delay in liquid refrigerant defrosting system

Author

Meng Wang, Akram W. Ezzat, Runqing Zang, and Eric Hu

Subjects
geography, geography.geographical_feature_category, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, Inlet, Industrial and Manufacturing Engineering, Automotive engineering, Damper, Refrigerant, Superheating, 020401 chemical engineering, Defrosting, Shutter, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, 0204 chemical engineering, Gas compressor, Evaporative cooler
Abstract

To prevent problems concerning rapid rise in cold-storage temperature and severe frosting of the compressor inlet in liquid refrigerant defrosting systems (LRDS), a shutter has been installed upstream of the air cooler as well as the motor damper installed downstream. It is also proposed that the air-cooler fan is switched into operation delay after defrosting. Experimental results demonstrate that the best time to switch the fan into operation post defrosting is when the enclosed-space temperature of the air cooler falls in line with the cold-storage temperature. Time delays for the fan were set as 8.6 min, 8.8 min, and 8.9 min corresponding to frost-mass values of 1 kg, 2 kg, and 3 kg, respectively. Through use of the proposed technique, the observed increase in cold-storage temperature was controlled within 5 °C. In addition, gas return temperature of the compressor was observed to be greater compared to that of the air cooler; the compressor, therefore, utilized the available superheat to prevent the occurrence of wet compression.

Published
2018

47. Investigation of energy recovery with exhaust air evaporative cooling in ventilation system

Author

Samar Jaber and Akram W. Ezzat

Subjects
Energy recovery, Payback period, Meteorology, business.industry, 020209 energy, Mechanical Engineering, Cooling load, Environmental engineering, Evaporation, Energy recovery ventilation, 02 engineering and technology, Building and Construction, law.invention, law, Ventilation (architecture), HVAC, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Civil and Structural Engineering, Evaporative cooler
Abstract

Building ventilation is mandatory to provide occupants with comfort space. This ventilated air is considered as a waste of energy because the fresh air will enter the room at higher or lower temperature than the room temperature in summer and winter seasons. Moreover, as much as the temperature of fresh air is reduced, lower cooling load is needed. This will lead to reduce the capacity and the power consumption of HVAC system. Normally, energy recovery is used for this purpose. On the other hand, an additional cooling method (evaporative cooling unit) can be added to the exhaust air stream from the energy recovery to reduce its temperature and correspondingly reduce the fresh air temperature. In this research, a model of Energy Recovery with Exhaust air Evaporative Cooling (EREEC) in ventilation is built to test the thermal performance theoretically and experimentally in Mediterranean climate. The results indicated a superior saving due to using EREEC. The inlet temperature is reduced by 2.2 °C at ambient temperature of 24.4 °C and by 7.5 °C at highest ambient temperature of 35.7 °C. Additionally, simulation results show that the base cooling load can be reduced up to 13.38%. Moreover, the Payback Period of EREEC from annual energy saving occurred is around 8 years.

Published
2017

48. Pinworm infection in school children of four districts of Malakand region, Khyber Pakhtunkhwa, Pakistan.

Author

Khan, W., Panhwar, W. A., Mehmood, S. A., Ahmed, S., Ahmed, M. S., Khan, N., Khan, M. M., Akram, W., Ullah, S., and Imran

Subjects
SCHOOL children, ENTEROBIUS, JUVENILE diseases, ASCARIS lumbricoides, PARASITIC diseases, TAENIA
Abstract

Copyright of Brazilian Journal of Biology is the property of Instituto Internacional de Ecologia 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
2022
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49. Assessing food insecurity trends and determinants by using mix methods in Pakistan:Evidence from household pooled data (2005-2014)

Author

Hashmi, A.A., Sial, M.H., Akram, W., Hashmi, M.H., Hashmi, A.A., Sial, M.H., Akram, W., and Hashmi, M.H.

Abstract

In this study, we try to indirectly quantify the welfare of people in Pakistan through measuring the food insecurity, malnutrition during last decade (2005-14). This study takes lead from earlier studies, in a sense; it covers two food price hike periods (2007 and 2011). So, it is important to understand, how food insecurity status and nutrition are affected by these shocks during this period. Thus, we use nationally representative data called as Household Income and Expenditure Survey (HIES) from 2005-2014. Pakistan Bureau of Statistics collects this data in five rounds; 2005-06, 2007-08, 2010-11, 2011-12, and 2013-14 comprised 81102 households. Results from the headcount ratios suggest that over the period food insecurity trends of the households raised from (58%) to (77%). we find urban households are more food insecure over the time as compared to rural households. Whereas, in qualitative terms of food insecurity, we use two food diversification measures; one is dietary diversity score and second one is share of staple food in total calories consumed by household, suggest that households dietary diversity score is good on average that is 9 out of 10 food groups and on the whole it is slightly improved from (8.8 %) to (9%) in previous 10 years. Interestingly, when we analyze the share of staple food in total calories, results suggest that major portion of a household's diet is consisting of staple food (wheat), (53%) and increased to (57%) from 2005 to 2014. We use the Heckman Approach to find out determinants of food insecurity. Results suggest that female headship plays a significant positive role in caloric intake, among the other variable head education, households' member with basic education and higher education, live stock ownership, consumption of livestock produced at home, farming, consumption of food crop produced at home and foreign and domestic remittances plays a significant positive role in caloric intake of food insecure households.

Published
2019

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