Stabilisation of niger delta soil in orashi region using ogbono fibre, oil-male palm flower, plantain rachis, and white ash (oopw) as stablizing agents
Table Of Contents
Chapter ONE
INTRODUCTION
- 1.1Introduction
- 1.2Background of Study
- 1.3Problem Statement
- 1.4Objective of Study
- 1.5Limitation of Study
- 1.6Scope of Study
- 1.7Significance of Study
- 1.8Structure of the Research
- 1.9Definition of Terms
Chapter TWO
LITERATURE REVIEW
- 2.1Overview of Soil Stabilization
- 2.2Properties of Niger Delta Soil
- 2.3Stabilizing Agents in Construction
- 2.4Ogbono Fibre as a Stabilizing Agent
- 2.5Oil-Male Palm Flower as a Stabilizing Agent
- 2.6Plantain Rachis as a Stabilizing Agent
- 2.7White Ash as a Stabilizing Agent
- 2.8Combined Use of Stabilizing Agents
- 2.9Case Studies on Soil Stabilization
- 2.10Sustainable Practices in Soil Stabilization
Chapter THREE
SYSTEM DESIGN AND IMPLEMENTATION
- 3.1Research Methodology Overview
- 3.2Research Design and Approach
- 3.3Sampling Techniques
- 3.4Data Collection Methods
- 3.5Data Analysis Procedures
- 3.6Quality Assurance in Research
- 3.7Ethical Considerations
- 3.8Limitations of the Research Methodology
Chapter FOUR
SYSTEM TESTING AND EVALUATION
- 4.1Analysis of Soil Stabilization Experiments
- 4.2Performance Evaluation of Stabilizing Agents
- 4.3Comparison of Stabilization Techniques
- 4.4Environmental Impact Assessment
- 4.5Cost-Benefit Analysis
- 4.6Recommendations for Implementation
- 4.7Future Research Directions
- 4.8Stakeholder Engagement and Communication
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- 5.1Conclusion
- 5.2Summary of Findings
- 5.3Implications for Practice
- 5.4Contribution to Knowledge
- 5.5Recommendations for Further Studies
Thesis Abstract
Abstract
The Niger Delta region in Nigeria is known for its challenging soil characteristics, particularly in the Orashi region. The instability of the soil in this area has significant implications for construction and infrastructure development. This research project focuses on exploring the potential of using a mixture of Ogbono fibre, oil-palm male flower, plantain rachis, and white ash (OOPW) as stabilizing agents for the problematic soil in the Niger Delta, specifically in the Orashi region. The study involves laboratory testing to analyze the engineering properties of the soil when treated with OOPW. Various tests such as compaction tests, California Bearing Ratio (CBR) tests, and unconfined compressive strength tests are conducted to evaluate the effectiveness of the stabilizing agents. The research aims to determine the optimal mix ratio of OOPW for improving the strength and stability of the soil in the Orashi region. Preliminary results indicate that the addition of OOPW has a positive impact on the soil properties, enhancing its strength and durability. The combination of Ogbono fibre, oil-palm male flower, plantain rachis, and white ash creates a synergistic effect that improves the soil's engineering characteristics. The study also considers the environmental sustainability of using these natural materials as stabilizing agents, highlighting the eco-friendly nature of the proposed solution. Furthermore, the research investigates the long-term performance of the stabilized soil under different loading conditions and environmental factors. By simulating realistic scenarios, the study aims to assess the durability and resilience of the treated soil over time. This comprehensive analysis provides valuable insights into the feasibility and effectiveness of using OOPW for stabilizing problematic soils in the Niger Delta region. Overall, this research contributes to the ongoing efforts to address soil stabilization challenges in the Niger Delta, particularly in the Orashi region. By introducing a novel approach using locally sourced materials, the study offers a sustainable and cost-effective solution for enhancing soil stability in construction projects. The findings of this research have practical implications for engineers, developers, and policymakers involved in infrastructure development in the Niger Delta region, highlighting the potential benefits of adopting OOPW as a stabilizing agent for problematic soils.
Thesis Overview
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</p><div><p> INTRODUCTION<br>1.1 Background of the Study</p><p>There is an increasing interest in engineering to mimic and maximize the benefits of natural process. The purpose is to achieve an engineering end that has minimal impact on the environment and also be less expensive to implement. Environmental engineering professions pursuit. The changes in our environment has incurred about the possibilities of new technologies for soil improvement and stabilization. Soil is a naturally occurring materials that are used for construction of all except the surface layers of pavement (i.e asphalt and concrete), in many situations, soil cannot be used directly as road service layers, foundation layers and as a construction materials, for this reason the properties of those soils cannot be changed. The construction of structures these days are being carried out on land with poor soil, the stability of any structure depends on the properties of soil. Land with weak soils used for constructions result to ground improvement techniques such as soil stabilization and reinforcement, most of the soil available have better compressive strength, proper shear strength and weak in tension (poor tensile strength). (Chapale and Dhatrak, 2013).</p><p>From research early soil stabilization began in early 1970’s in India, which leads engineers to device a means of improving the soil rather than replacing the weak soil at the site. Soil stabilization has taken a new shape in recent times due to increase of demand for infrastructure, raw material and fuel; it’s emerging as a popular and cost effective method.</p><p>Construction of civil engineering structures on weak or soft soil is difficult without any soil improvement as of their poor shear strength and high compressibility characteristics of soil can be undertaken by different ground improvement technique. The foundation of a building or road is an essential part for effective transmission of wad to the subsoil present beneath it. The quality of soil has large impact on the type of structure and its design. Expansive soils are examples of weak soil which are encountered in foundation engineering for high ways, bridges, building and embankments etc. expansive soils are soils that has the ability of shrinkage when it comes in contact with water, it expands in rainy season as a result of water and shrinks during summer/dry season (charade et. Al. 2014).</p><p>For sustainable economic growth, use of locally natural materials should be used and encouraged, soil stabilization in this project research work is a good reinforcement material and it improves the properties of soil and it’s cost effective (Barazesh, 2012).</p><p>1.2 Statement of Problem</p><p>The ogbono fiber, oil male palm flower, plantain rachis, and white ash (OOPW) as a waste material can contaminate the environment.</p><p>The OOPW was used to study soil behavior and improve its strength. The results gotten are used to describe the effect of agricultural waste in stress path and stress strain relation. The OOPW are evaluated to determine the effect and degree of impact on soils used.</p><p>The rapid growth in development of Orashi’s has resulted in demand for stronger and more durable roads and buildings. Subsequently, engineers are forced to be more careful in the utilization of construction materials. Variety of factors such as increase in construction volume, severe loading conditions, shortage of suitable materials as well as poor site conditions and high cost of additives (cement, lime etc) have greatly increased for need for modification and stabilization of soils using agricultural waste. The stabilization of soils is recognized by engineers as an important process of improving the performance of problematic soils and makes marginal soils perform better as civil engineering materials (Amadi, 2010). The over dependence on the use of industrially manufactured soil improving additives (cement, lime, bitumen etc.) have kept the cost of construction of stabilized road financially high. This has deterred accessible roads of the rural developers and other urban centers as well.</p><p>The hunger to obtain cheaper additives which can be used to substitute these expensive industrially manufactured soil improving additives (bitumen, cement, lime etc) leads to the consideration of agricultural waste resources such as plantain rachis, banana rachis, ogbono fiber. Hence, the use of cheap admixtures to replace or supplement cement or lime stabilized soils especially wastes from agricultural products will eventually reduce the cost of construction works where expansive soils are found. This study matches the need for safe and environmental disposal of waste, for the society and the engineers need for better and cost effective construction materials (Collins and ciesiellski, 1993); Phanikumar and Sharma 2004; Malhotra and Metha 1996; Cokca 2001).</p><p>This work is aimed at producing agricultural waste as a substitute additive to stabilization of soil that can be implemented today and cost effective, from a tropical soil with reference from orashi region, Rivers State Nigeria.</p><p>1.3 Objective of Study</p><ol><li>To investigate the changes in the area before the flood and after the flood.</li><li>To study the effect of replacement of part of the soil with Ogbono fiber, plantain rachis, oil palm male flower, white ash concentration future use for.</li></ol><p>iii. To determine the volume doe of stabilizing agent to be added for permanent usage material and also minimize the problem of waste disposal.</p><ol><li>To improve onsite materials and create a solid strong base and base courses.</li></ol><p>1.4 Justification of study</p><p>Reasons while this study was carried out are the high cost of production, high energy demand and emission of C02 which is responsible for global warning.</p><p>In third world countries, the most commonly and partially replace cement without economic implications are bio-based materials and agro-based wastes. Such as Achawok ash, Bambara groundnut, husk ash, rice husk ash and wood ash, bamboo leaves ash etc. OPB are not commonly used, but in this study it’s investigated upon so as to start implementing it, because over dependent on the utilization of industrially manufactured soil improving additives (cement etc) have kept the cost of construction high. (Ogunribido, 2011).</p><p>1.5 Scope of Study</p><p>For efficient project done, certain areas were covered to ensure that the research work is done comprehensively and encompasses all necessary areas, which includes:</p><ol><li>Site visitation of the study area</li><li>Collection of samples</li></ol><p>iii. Sieve analysis test</p><ol><li>Atterberg limit test</li><li>Compaction test</li></ol><p>1.6 Definition of terms</p><p>Soil Stabilization according to Wikipedia is a combined method of changing a natural soil to meet an engineering purpose.</p><p>Lime Stabilization is the addition of binder product (quicklime) to the host material which reduces moisture dramatically turning the unusable material into a valid construction material with a 5% CBR.</p><p>Mechanical Soil Stabilization is the compaction or the introduction of fibrous and other non-biodegradable reinforcements to the soil. It does not require chemical change of the soil.</p><p>Ogbono Fiber which is commonly known as wild mango or bush mango, came from a family of the “genus Irvingia”, they bear edible mango-like fruits. The fiber is gotten after its fruit has been eaten off, it’s then allowed to dry properly and you scrip-off from shell.</p><p>Plantain Rachis is an agricultural waste. The plantain is a crop from the genus Musa. The plantain rachises are gotten from the bracketed stalk that stretches from the first fruit to the male.</p><p>The Oil Palm Male Flowers are formed when the young oil palm has been planted in the palm grove, the flowers are then form at the base of each leaf.</p><p></p></div><h3></h3><br>
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