COMPLIANCE TO ENVIRONMENTAL IMPACT ASSESSMENT REGULATIONS BY A GOLD MINING COMPANY IN ZAKA DISTRICT, ZIMBABWE - A TRAVESTY OR TRIBUTE TO ENVIRONMENTAL DEMOCRACY AND JUSTICE

Zimbabwe’s Environmental Management Act has provisions promoting the conduct of environmental impact assessment (EIA) prior to project implementation to protect the environment and environmental rights. Using data collection methods inspired by phenomenological study, this paper discusses if EIA processes by a gold mining company had mainstreamed or marooned ‘access rights’ which are the cornerstone of environmental democracy. While the Zimbabwe’s EIA policy is applauded for covertly mainstreaming environmental democracy, research findings suggest that there exist gaps in the policy framework, policy and practice in promoting comprehensive environmental democracy. EIA processes are done to fulfil legal obligations but with little motivation to protect community interests as participation is symbolic. It is recommended to redesign EIA policy and embed broader attributes of environmental democracy such as locals’ participation in all EIA stages and inclusion of experts on community issues in the EIA review panel to promote fairness, inclusivity, transparency during EIA. Article visualizations

Photocatalytic degradation of tetracycline using surface defective black TiO2–ZnO heterojunction photocatalyst under visible light

Fabrication of heterojunction and surface defective engineering, through the formation of oxygen vacancies, are among the various photocatalytic enhancement techniques. A combination of these techniques has the prospect of enhancing photocatalytic activities through improved light absorption capabilities and charge separation process of the photocatalysts. In this study, a heterojunction of black titanium oxide-zinc oxide (BTiO2–ZnO) nanocomposite was synthesized using the conventional sol-gel approach, coupled with aluminum foil-assisted NaBH4 reduction. The structure, morphology, surface properties, and optical characteristics of the synthesized material were studied using Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), UV–vis absorption spectra, scanning electron microscope (SEM), Energy-dispersive X-ray spectroscopy (EDS), and transmission electron microscope (TEM). The XRD confirmed the successful formation of BTiO2–ZnO heterostructure, while SEM revealed the structural morphology as pseudo-spherical with slight agglomeration. BTiO2–ZnO was found to be more efficient than BTiO2 and BZnO for the removal of tetracycline with degradation efficiencies of 63, 58, and 56 % respectively. The effects of process parameters such as the amount of photocatalyst, pollutant’s concentration, and the initial solution pH on photocatalytic degradation study were systematically explored. The results confirm that the formation of the heterostructure from BTiO2 and BZnO could offer a facile route to improving the catalytic degradation of tetracycline. Therefore, this study offers a novel perspective on the design of efficient metal oxide photocatalyst systems that rely on the integration of defect engineering and heterojunction for the removal of organic contaminants

Application of coal fly ash based ceramic membranes in wastewater treatment: A sustainable alternative to commercial materials

The continued increase in the global population has resulted in increased water demand for domestic, agricultural, and industrial purposes. These activities have led to the generation of high volumes of wastewater, which has an impact on water quality. Consequently, more practical solutions are needed to improve the current wastewater treatment systems. The use of improved ceramic membranes for wastewater treatment holds significant prospects for advancement in water treatment and sanitation. Hence, different studies have employed ceramic membranes in wastewater treatment and the search for low-cost and environmentally friendly starting materials has continued to engender research interests. This review focuses on the application of coal fly ash in membrane technology for wastewater treatment. The processes of membrane fabrication and the various limitations of the material. Several factors that influence the properties and performance of coal fly ash ceramic membranes in wastewater treatment are also presented. Some possible solutions to the limitations are also proposed, while cost analysis of coal fly ash-based membranes is explored to evaluate its potential for large-scale applications