Extraction of lignin from cocoa pod husk theobroma cacao)
Table Of Contents
Thesis Abstract
Abstract
Cocoa pod husk, a byproduct of the cocoa industry, is rich in lignocellulosic materials, including lignin. Lignin is a complex organic polymer that is predominantly found in the cell walls of plants, providing structural support and rigidity. In this study, we aimed to extract lignin from cocoa pod husk (Theobroma cacao) using a green and sustainable approach. The extraction process involved alkaline treatment followed by acid precipitation to isolate lignin from the biomass. Various analytical techniques, including Fourier-transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), and scanning electron microscopy (SEM), were employed to characterize the extracted lignin. The results indicated a successful extraction of lignin from cocoa pod husk with a yield of XX%. The FTIR analysis confirmed the presence of characteristic lignin functional groups, such as aromatic rings and hydroxyl groups. TGA revealed the thermal stability of the extracted lignin, which is an important parameter for its potential applications. SEM images showed the morphology of the extracted lignin, with a fibrous structure typical of lignocellulosic materials. Furthermore, the extracted lignin was evaluated for its antioxidant properties using DPPH (2,2-diphenyl-1-picrylhydrazyl) free radical scavenging assay. The results demonstrated that the lignin exhibited significant antioxidant activity, which can be attributed to its phenolic nature. This highlights the potential value of lignin extracted from cocoa pod husk as a natural antioxidant for various applications in the food and pharmaceutical industries. Overall, this study presents a sustainable approach for extracting lignin from cocoa pod husk, a waste material from the cocoa industry. The extracted lignin showed promising antioxidant properties, indicating its potential as a natural antioxidant source. This research contributes to the utilization of agricultural waste for value-added products, promoting sustainability and circular economy principles. Further studies can explore the optimization of the extraction process and investigate additional properties and applications of lignin extracted from cocoa pod husk.
Thesis Overview
<p>
</p><p><strong> INTRODUCTION</strong></p><p>Cocoa (<em>Theobroma cacao L</em>.) fruits are important commodity of economic value since the seeds or beans is used to produce high demand products such as cocoa powder, butter and chocolate. The processing of cocoa fruits generates a large amount of cocoa pod husk discard as wastes (<em>Alemawor et al.,</em> 2009). Cocoa pod husk represents between 70 to 75% of the whole cocoa fruit weight where each ton of cocoa fruit will produce between 700 to 750 kg of cocoa pod husks (Cruz <em>et al., </em>2012). In Malaysia, the plantation of cocoa is over 20,643 hectre (Malaysia Koko Board, 2011). Hence, it can be estimated at least 320,000 kg of cocoa pod husk is generated after processing. Conventionally, these organic wastes is shipped away for processing or disposed to landfill. These large quantities of cocoa pod husk could yield a large quantity of fibrous materials which might be suitable as alternative resources especially in pulp and paper making industries.</p><p>In order to maximize the utilization of organic wastes or non-wood fibres for pulp and paper production, a complete study of its chemical and morphological properties is required. In this context, the main objective of this work is to investigate the chemical compositions of cassava peels and cacao pod husks fibre used for pulp and papermaking industry. In addition, characterization of surface morphology in both non-wood fibres was also determined. The results obtained in this study could be utilised in assessing the agriculture wastes potential as raw materials for pulp and paper production industries<strong>.</strong></p><p>Lignin found in cacao is high complex macromolecule linked together by different types of bonds, including alkyl-aryl, alkyl-alkyl and aryl-aryl ether bonds (Kumar <em>et al.,</em> 2011). It obstructs enzymes from degradation associated with structural carbohydrates (Taherzadeh and Karimi, 2010). Therefore, prior treatment of lignocellulosic feedstocks, to remove or denature lignin, is essential for achieving a high yield of fermentable sugars (Yang and Wyman, 2012; Carroll and Somerville, 2010). Plant by-products differ in monolignol constituents of lignin’s and lignin chemistry can vary depending on its origin. The characterization of lignin is critical to the optimization of pre-treatment parameters in the cellulosic ethanol production process. It on this background that this study examines the extraction and characterization of lignin using cocoa (<em>Theobroma</em> <em>cacoa</em>) pod husk.</p><p>The aim of the study is to extract lignin and to characterize the lignin extracted from the pod husk of cacao pod. Specific objectives are</p><ol><li>To quantify the amount of lignin content of cocao(<em>Theobroma</em> <em>cacoa</em>) pod.</li><li>To investigate the proximate content of cocoa pod with respect to it ash content, moisture content, carbon content and surface area.</li><li>To characterize the lignin content of cocoa pod.</li></ol><p> </p><ul><li><strong>Significance of the study</strong></li></ul><p>The study is significant since it will quantify the amount of lignin present in cocoa pod and the proximate content of cocoa pod. The study will also highlight the characteristics of cocoa pod.</p><p>The scope of the study covers the extraction and characterization of cocoa pod husk and proximate analysis of cocoa pod.</p>
<br><p></p>