EFFECT OF TITANIUM DIOXIDE NANOPARTICLE ON MICROBIAL BIOMETHANE POTENTIAL | Blazingprojects Postgraduate Thesis
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EFFECT OF TITANIUM DIOXIDE NANOPARTICLE ON MICROBIAL BIOMETHANE POTENTIAL

 

Table Of Contents


  • Title page   —       –       –       –       –       –       –       –       –       –       – i     Declaration —       –       –       –       –       –       –       –       –       –       -iiApproval page —   –       –       –       –       –       –       –       –       –       -iiiDedication —         –       –       –       –       –       –       –       –       –       -ivAcknowledgement —       –       –       –       –       –       –       –       –       -v     Table of content   —         –       –       –       –       –       –       –       –       -vi                 Abstract —   –       –       –       –       –       –       –       –       –       –       -vi

Thesis Abstract

Abstract
The utilization of renewable energy sources has become increasingly important in mitigating environmental issues and reducing dependency on fossil fuels. Biomethane production from organic waste through anaerobic digestion is a promising avenue for sustainable energy generation. However, the efficiency of this process can be influenced by various factors, including the activity of microbial consortia involved in the degradation of organic matter. In recent years, nanotechnology has gained attention for its potential applications in improving various processes, including environmental technologies. Titanium dioxide nanoparticles (TiO2 NPs) have been widely studied for their antimicrobial properties and their ability to enhance various processes due to their unique physicochemical characteristics. This study aims to investigate the effect of titanium dioxide nanoparticles on the microbial biomethane potential during anaerobic digestion. The research will involve the addition of TiO2 NPs to anaerobic digesters operating with different organic substrates to assess their impact on biomethane production. The microbial community composition will be analyzed using high-throughput sequencing techniques to understand the changes induced by the presence of TiO2 NPs. Moreover, biogas production, methane content, and process stability parameters will be monitored throughout the experiment. It is hypothesized that the addition of TiO2 NPs will enhance biomethane production by promoting the activity of methanogenic microorganisms and inhibiting the growth of potential inhibitory bacteria. The antimicrobial properties of TiO2 NPs may help in maintaining a balanced microbial community, leading to improved process efficiency and stability. The results of this study will contribute to the understanding of the potential benefits and risks associated with the use of TiO2 NPs in anaerobic digestion systems for biomethane production. Furthermore, insights gained from the microbial community analysis will provide valuable information on the interactions between nanoparticles and complex microbial populations in anaerobic digesters. Overall, this research aims to explore the application of TiO2 NPs as a potential strategy to enhance biomethane production from organic waste, thereby contributing to the development of sustainable bioenergy technologies.

Thesis Overview

<p> </p><p><strong>1.0 &nbsp; &nbsp; &nbsp; Introduction </strong></p><p>Much attention has been given to nanotechnology and nanoscience over the last decade. These studies involve a wide spectrum of research areas and industrial activities from fundamental sciences (that is physics, chemistry and biology) to applied science (that is electronics and materials) on the nanoscale (1nm=10-9m) (Liu, 2006).One of the major developments in nanotechnology and nanoscience is the production and application of nanoparticles. In general, nanoparticles are chemicals smaller than 100nanometers, contain 20-15000 of atoms, and exist in a realm that straddles the quantum and Newton scales (Shan <em>et al</em>., 2005). Nanoparticles can be produced from different materials in different shapes such as spheres, rods, wires and tubes (Chang <em>et al</em>., 2005), they occur naturally in aquatic and terrestrial environments in finer fractions of colloidal clays, mineral precipitates and dissolved organic matter (Batley <em>et al</em>., 2006). The uses of nanoparticles are widely reported in a wide variety of areas including advanced materials, electronics, magnetics and optoelectronics, biomedicine, pharmaceuticals, cosmetics, energy, and catalytic and environmental detection and monitoring. The use of nanoparticles over the last decade has been more frequent in applications of industrial nature and in consumer and medical products (Batley <em>et al</em>., 2011), the use of nanosized materials offers exciting and new options in these fields and the applications of nanoparticles will likely continue to increase (Frohlich, 2011).</p><p>Due to its wide applicability, nanoparticles are easily released into the environment when the goods in which they are contained in are disposed. Nanoparticles can be added to soils directly through fertilizers or plant protection products or indirectly through application to land or wastewater treatment products such as sludges or biosolids (Franklin <em>et al</em>., 2007). Nanoparticles may enter aquatic systems directly through industrial discharges or from disposal of wastewater effluents or indirectly through surface runoff from soils. However, researchers found that once released into the environment, nanoparticles might pose as potential risks to human health, microorganisms and other life forms (Zheng<em>et al</em>., 2011). In addition to physiochemical parameters such as contamination with toxic elements, fibrous structure and high surface charge, the formation of radical species was identified as key mechanism for the cytotoxic action of nanoparticles. Toxic effects of nanoparticles dubbed as “nanotoxicity” are increasingly evidenced, the extent of nanotoxicity depends on the charge, size and nature of the nanoparticle.</p><p>In the environment, nanoparticles can undergo a number of potential transformations that depend on the properties of both the nanoparticle and the receiving medium (Rogers <em>et al</em>., 2010). These transformations largely involve chemical and physical processes which may change the fate of the nanoparticle in the environment. Risk assessment for nanoparticle releases into the environment is still in their infancy, and reliable measurements of nanoparticles at environmental concentrations remain challenging. Predicted environmental concentrations based on current usage are low but are expected to increase as use increases.</p><p>&nbsp;</p><p><strong>1.2 &nbsp; &nbsp; &nbsp; Aims and Objectives</strong></p><ul><li>Understand the influence of TiOâ‚‚ on microbial activity during anaerobic digestion of food waste</li><li>Assess the effect of TiOâ‚‚ on the volatile fatty acid production and biomethane potential</li><li>Determine TiOâ‚‚ effect on the diversity and population changes in the methanogenic microbial community.</li></ul> <br><p></p>

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