Adsorption of Cadmium Ions on Geopolymers Derived from Ordinary Clay and Rice Husk Ash

摘要

The presence of heavy metals in water is of growing concern. One crucial global strain is the existing disparity in water distribution resulting into millions of people lacking access to safe clean water. This is exasperated by the looming climate change and increased pollution impendence posed by industrialization and population growth. Consequently, pursuance of sustainable materials and technologies for wastewater remediation is critical. Adoption of adsorbents for water treatment is desirable due to their simplicity and cheap materials involved. Geopolymers are prepared hydrothermally using alumina and silica gleaned from clay and rice husks waste materials respectively. These materials are locally attainable and environmentally benign. This work reports synthesis of geopolymers GP-1, GP-2 and GP-3 prepared using clays from three different regions. The XRD diffraction patterns obtained revealed the presence of quartz (SiO_(2)), albite (NaAlSi_(3)O_(8)), vermiculite (Mg,Fe,Al)_(3)((Al,Si)_(4)O_(10))(OH)_(2).4H_(2)O), microcline (KAlSi_(3)O_(8)), analcime (NaAlSi_(2)O_(6)?H_(2)O) and natrite (Na_(2)CO_(3)) among other crystalline phases. The initial adsorption rates were found to increase as the Si/Al ratio of the geopolymers increased. The adsorption rates were found to fit into the second order kinetic model. This implies that Cd (II) ions adsorb on geopolymer adsorbents through chemisorption.