Search or add a thesis

Advanced Search (Beta)
Home > Mobility Modeling for Efficient Data Routing in Wireless Body Area Networks

Mobility Modeling for Efficient Data Routing in Wireless Body Area Networks

Thesis Info

Author

Muhammad Moid Sandha

Supervisor

Nadeem Javaid

Department

Department of Electrical Engineering

Program

REE

Institute

COMSATS University Islamabad

Institute Type

Public

City

Islamabad

Province

Islamabad

Country

Pakistan

Thesis Completing Year

2014

Thesis Completion Status

Completed

Subject

Electrical Engineering

Language

English

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676720313034

Similar


Loading...
Loading...

Similar Books

Loading...

Similar Chapters

Loading...

Similar News

Loading...

Similar Articles

Loading...

Similar Article Headings

Loading...

کر کے قول قرار دے بھج جانا

کر کے قول قرار دے بھج جانا
چنگا نہیں ہوندا لا کے پج جانا
ہک وار تاں یار ملا ربا
اساں ویکھدیاں سار ای رج جانا
پردہ رکھیے کسے دا رب آکھے
کم مرد دا اے پردہ کج جانا
دکھی دل نوں جنھاں نے جت لیا
کر سمجھ لے اوہناں نیں حج جانا
کم شہر دے وچ نہیں کوئی اے پر
گلی سجناں دی کسے پج جانا
اوکھے ویلے جو یار نہ کم آوے
چنگا ہوندا اے اوس توں بھج جانا

The World viz-a-viz Covid-19 Pandemic  Which Way Is A Way to Temple?

The contemporary world is witnessing a deadly pandemic whose outcome till date has played havoc on the world economies and has rendered businesses, industries, and societies to a grinding halt. There exists even a greater danger that devastation of economies may eventually lead to conflicts within and outside the periphery of borders. The world will continue till its very end and humans will have to live with wars, pandemics, and natural calamities. Two ‘social’ institutions so far have remained the most fundamental for a rather unbumpy time-evolution of any society, viz. (i) Institutions producing ‘manpower’ (i.e, educational institutions); and (ii) Workplaces run by ‘manpower’ (such as businesses, trade, industries, and military).

Investigating the Activity of Zirconia As a Catalyst and As a Support for Noble Metals in Organic Oxidation Reactions

Alcohols and cyclic alkanes oxidation, in an environment friendly protocol, was carried out in a typical batch reactor. These reactions were carried out in solvent free conditions and/or in eco-friendly solvents using molecular oxygen as the only oxidant and ZrO2 and/or ZrO2 supported noble metals (Pt, Pd) as catalysts. The influence of different reaction parameters (speed of agitation, reaction time, and temperature), catalyst parameters (calcination temperature and loading), and oxygen partial pressure on the catalyst performance was studied. Different modern techniques such as (FT-IR, XRD, SEM, EDX, surface and pores size analyzer and particle size analyzer) were used for the characterization of catalyst. ZrO2 calcined at 1223 K was found to be more active as a single catalyst than the one calcined at 723 K for alcohol oxidation to the corresponding carbonyl products under solvent free conditions and in ecofriendly solvent as well. Platinum supported on zirconia was highly active and selective for oxidation of benzyl alcohol to benzaldehyde in n- heptane, and toluene to benzoic acid in both solvent free conditions and in aqueous medium. Similarly, zirconia supported Pt or Pd catalysts were tested for cyclohexane oxidation in solvent free conditions and for phenol oxidation in aqueous medium. Both catalysts have shown magnificent catalytic activity. Bismuth was added as a promoter to these catalysts. Bismuth promoted Pt/ZrO2 has shown outstanding catalytic performance. These catalysts are insoluble in the reaction mixture and can be easily separated by simple filtration and reused. Typical batch reactor’s kinetic data were obtained and fitted to the classical Langmuir–Hinshelwood, Mars–van Krevelen and as well as to the Eley-Rideal model of heterogeneously catalyzed reactions. In alcohol oxidation reactions the Langmuir-Hinshelwood model was found to give a better fit. The rate-determining step was proposed to involve direct interaction of an adsorbed oxidizing species with the adsorbed reactant or an intermediate product of the reactant. While in toluene oxidation the Eley-Rideal model was found to give a better fit. Eley-Rideal mechanism envisages reaction between adsorbed oxygen with hydrocarbon molecules from the fluid phase. The calculated apparent activation energy and agitation effect have shown the absence of mass transfer effect.