This review tends to analyze the importance of halal animal feed from the Islamic standpoint and describes the drawbacks of non-halal. Mischievousness to animal handling during production, transport, and slaughter in states where Islam is the main doctrine has created doubts about the quality of products. Islam is a religious conviction that illustrates empathy to animals and well-being of humankind food as mentioned in the holy book Qur’an and sayings of the Prophet Mohammed (PBUH). In a variety of animal-based halal food products, a Muslim should be conscious of not only about the rearing organization of the animals but also the slaughtering procedure. Animal feed is the preliminary Critical Control Point to establish the halal authenticity of animal-based food products. Regardless of the recognized agenda on animal feed in Middle East Asia, impurity in animal feed ingredients is still occurring and repetitively reported by the media. Feed inflicts direct effect on the animal originated feedstuffs like meat, milk, and eggs and it has been acknowledged as the foremost cause of diseases in both humans as well as animals. Consequently, any action that is associated with the production of livestock must be intimately explored to spot any vulnerability with liable Islamic laws of food and hit upon those traditions to avoid them. The intent of this review is to appraise the halal nutritional system of animals and see whether it has any optimistic or depressing effects on the health of the customers. Our advancement will be comprehensive as we have focused on the socio-religious aspects of human health. The verdict of this review could be made as an orientation by the policymakers of emerging officially authorized business bodies for producing, importing and auction of halal animal feed according to Islamic set of guidelines.
Energy generation from biomass presents some serious problems like slagging, fouling and corrosion of boilers. To address these problems, demineralization of biomass is performed using different leaching agents. This study is focused on determining the influence of leaching agents and leaching time on the physiochemical structure of rice husk during demineralization. Dilute (5% wt) solutions of HCl and H2SO4 were used for the demineralization of rice husk separately with leaching time of 15, 60 and 120 minutes. It is shown that H2SO4 exhibited higher removal of alkali and alkaline earth metals (AAEM) comparatively as depicted by the 34.2% decrease in ash content along with an increase of 7.10% in the heating value. The acid has been seen to induce more notable changes in physiochemical structure as depicted by the FTIR spectra and SEM micrographs. The thermal degradation behavior of the demineralized rice husk has also been reported.