எங்கள் குழு ஒவ்வொரு ஆண்டும் அமெரிக்கா, ஐரோப்பா மற்றும் ஆசியா முழுவதும் 1000 அறிவியல் சங்கங்களின் ஆதரவுடன் 3000+ உலகளாவிய மாநாட்டுத் தொடர் நிகழ்வுகளை ஏற்பாடு செய்து 700+ திறந்த அணுகல் இதழ்களை வெளியிடுகிறது, இதில் 50000 க்கும் மேற்பட்ட தலைசிறந்த ஆளுமைகள், புகழ்பெற்ற விஞ்ஞானிகள் ஆசிரியர் குழு உறுப்பினர்களாக உள்ளனர்.
அதிக வாசகர்கள் மற்றும் மேற்கோள்களைப் பெறும் திறந்த அணுகல் இதழ்கள்
700 இதழ்கள் மற்றும் 15,000,000 வாசகர்கள் ஒவ்வொரு பத்திரிகையும் 25,000+ வாசகர்களைப் பெறுகிறது
Kumar RD, Kannan GK and Kadirvelu K*
Populus tree is one of the extensively available Bioresource in the foothills of Western Himalayas. Apart from its multifarious utilities, the activated carbon from the poplar wood has also been finding its enormous use in combating environmental contaminants. Waste aqueous effluents containing various hazardous chemicals, heavy metals and dyes etc. cause serious environmental problems which ultimately affect both flora and fauna adversely. Activated carbon (AC) is being widely used adsorbent for the removal of organic pollutants. The poplar wood carbon (PWC) when chemically activated with NaOH, HCl, HNO3, H3PO4, H2SO4, CH3COOH and ZnCl2 caused significant increase in surface area and pore size development. All the chemically activated carbons (CACs) were subjected to extensive physiochemical studies like SEM, XRD, FTIR, EDAX and surface area etc. Among all the carbons, the SEM and surface area analysis of H2SO4 activated carbon showed the maximum pore size of 7.1 μm and leading surface area of 1045 m2/g. These carbons are acidic with their pHzpc in the range of 3.6 to 4.1. The carbon is amorphous in nature as it is showing three typical broad peaks around 26.5, 44.4 and 80° in all the samples. Among the bulk density of these carbons, ZnCl2 and H2SO4 activated carbons have maximum of 428 and 427 kg/m3 respectively. The utilization of these carbons in environmental protection has been studied by carrying out adsorption studies for the removal of phenol. Direct proportion of phenol adsorption to the adsorbent concentration was well established. Effect of contact time on adsorption of phenol using 0.5 gm of adsorbent with 25 ml of 1000 ppm adsorbate showed 100% removal of phenol and the equilibrium was attained in almost an hour. Preliminary studies using poplar wood carbon for the elimination of highly hazardous contaminants has been carried out and the results have been very encouraging.