تمسکات میں سرمایہ کاری اور اس کی شرعی حیثیت تحقیقی وتجزیاتی مطالعہ

Islam is a complete code of life which provides guidance in political, social and economic affairs. Economics deals with very importnt sphere of human life that involves struggle for survival. This struggle is always appreciated because Allah Almighty Himself motivates for it. The basic aim of this is to eradicate poverty and huger and to bring happiness and satisfaction in society but the condition is that all the economic activities should be done with within the limits of sharia. Otherwise the efforts of human beings in this world as well as hereafter will never be successful. In contemporary economic trends, investment in securities is well known and popular. Government and private institutions issue bonds, shares, debentures etc to provide economic security to the people but in various types of sceurities Shar฀‘ah laws are not taken care of. Where, for a Muslim, injunctions of Shar฀‘ah are everything. There are tidings of rewards on obeying these injunctions and warning of punishment on their violation boath in this world and hereafter. Economic experts suggest to invest but People remain uncertain in these schemes. Regarding this objective, in this article few types of securities (Shares, Debentures and Prize Bonds) have been discussed in Shar฀‘ah perspectives and prize bonds were given special attention because of difference of openion of scholars about it. Some alternate solutions which may provide an insight into Islamic fiscal monetary system have been provided at the end.

Bioenergy Potential of Biomass Produced on Marginal Lands

Biomass is believed as the only foreseeable feedstock for sustainable production of clean energy. However, it cannot be produced using agricultural lands to avoid the competition with the land for food crops. Hence, the plants/grasses adapted to poor soils (marginal lands) can be exploited for energy production without causing any negative impact. Pakistan is a 6th most populous country in the world, where the total population is even greater than Russia. So, the country has huge energy demands and is passing through the worst energy crisis in its history. Moreover, 64% of its energy requirements are being met through combustion of fossil fuels which is alarming in terms of environmental stability. Hence, it is essentially required to explore alternative, clean and sustainable energy sources. Biomass produced on marginal lands offers a promising alternative. Pakistan has 9 million hectares of salt-affected soils which is unfit for agricultural activity. The present study was focused to evaluate the bioenergy potential of the grasses adapted to this salt-affected area. The thermodynamics, thermal degradation and kinetics of selected grasses namely Para grass (Urochloa mutica), Elephant grass (Permisetum purpureum), Babui grass (Eulaliopsis binate), Mott grass (Pennesetum benthiumo), Egyptian grass (Dactyloctenium aegyptium), Carrot grass (Parthenium hysterophorus), Camel grass (Cymbopogon schoenanthus) and Cattail (Typha latifolia) produced on marginal lands in Pakistan without any fertilizers, pesticide and agriculture practices. All above biomass samples were thermally degraded in Nitrogen environment under three different heating rates (10, 30 and 50) ºC min-1. The thermodynamic and thermokinetic parameters were investigated using iso-conversion methods including KAS (Kissenger-Akahira-Sunose) and FWO (Flynn-WallOzawa). Whereas peak zones were also examined throughout the DTG curves under three different heating rates. Degradation regions were also determined on the basis of degradation of lignin, cellulose and hemicellulose components. High heating values were determined to range from 15-18 MJ kg-1. Similarly, activation energy, Gibbs free energy and enthalpy values of all biomass samples were determined which showed to be ranging from 166-267 kJ mol-1, 166-177 kJ mol-1and 161-262 kJ mol-1 respectively. All biomass samples had first order preexponential factors. Our data showed all biomass samples had remarkable potential to adopt as a low-cost biomass for bioenergy production through pyrolysis.