International Journal of Environmental Chemistry

Archive

Volume 2, Issue 1, June 2018

  • Determination of the Sea Waters Quality of Tobruk-Libya Gulf

    Gaith G. Altohame Jalgaif, Salah Ali M. Idris, Rabie Ali M. Maarouf, Ahmed M. Attia, Manal M. El-Naggar

    Issue: Volume 2, Issue 1, June 2018
    Pages: 1-9
    Received: Apr. 02, 2018
    Accepted: Apr. 18, 2018
    Published: May 19, 2018
    Downloads:
    Views:
    Abstract: This work consists of assessing the degree of pollution caused by wastewater, Power station discharge pipe and petroleum port in the gulf of Tobruk-Libya. This study is based on the analysis of the physicochemical parameters, the parameters indicating pollution and the determination of pH, DO, BOD, OOM, phenol, Salinity, nutrients (PO4, SiO3, NO2, ... Show More
  • Synthesis and Characterization of Aluminium Oxide (Al2O3) Nanoparticles and its Application in Azodye Decolourisation

    Vijaya Pandurang Dhawale, VaideiBalraj Khobragade, Satish Damodar Kulkarni

    Issue: Volume 2, Issue 1, June 2018
    Pages: 10-17
    Received: Mar. 29, 2018
    Accepted: May 04, 2018
    Published: May 30, 2018
    Downloads:
    Views:
    Abstract: The adsorption behaviour of an azodye Methylene Blue (MB) over aluminum oxide nano particles (AONP) generated by sol-gel method has been studied to investigate the physicochemical process involved andexplore the potential use of AONP in wastewater treatment. The variables incorporated in the present study are concentration of dye, dosage of adsorbe... Show More
  • Decolorizing Methyl Orange by Fe-Electrocoagulation Process – A Mechanistic Insight

    Sara Irki, Djamel Ghernaout, Mohamed Wahib Naceur, Abdulaziz Alghamdi, Mohamed Aichouni

    Issue: Volume 2, Issue 1, June 2018
    Pages: 18-28
    Received: Aug. 09, 2018
    Accepted: Aug. 20, 2018
    Published: Sep. 13, 2018
    Downloads:
    Views:
    Abstract: The aim of this work is to study the removal of methyl orange (MO) using electrocoagulation (EC) process. An electrochemical cell consisting of two iron electrodes, with 22.5 cm2 as an active surface, is used. Operating conditions are optimized such as nature and concentration of the supporting electrolyte, current density, pH, inter-electrode dist... Show More