Installation of auxiliary water supply network in the department of agricultural and bio-environmental engineering
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 Auxiliary Water Supply Networks
- 2.2Historical Development of Water Supply Systems
- 2.3Types of Auxiliary Water Supply Networks
- 2.4Components of Auxiliary Water Supply Networks
- 2.5Design Considerations for Auxiliary Water Supply Networks
- 2.6Maintenance and Operation of Auxiliary Water Supply Networks
- 2.7Benefits of Implementing Auxiliary Water Supply Networks
- 2.8Challenges and Issues in Auxiliary Water Supply Networks
- 2.9Case Studies of Successful Auxiliary Water Supply Networks
- 2.10Future Trends in Auxiliary Water Supply Networks
Chapter THREE
RESEARCH METHODOLOGY
- 3.1Research Methodology Overview
- 3.2Research Design and Approach
- 3.3Data Collection Methods
- 3.4Sampling Techniques
- 3.5Data Analysis Procedures
- 3.6Ethical Considerations
- 3.7Reliability and Validity
- 3.8Limitations of the Research Methodology
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- 4.1Data Analysis and Interpretation
- 4.2Overview of Findings
- 4.3Comparison with Research Objectives
- 4.4Key Trends and Patterns Identified
- 4.5Discussion on Implications of Findings
- 4.6Recommendations for Practice
- 4.7Recommendations for Further Research
- 4.8Conclusion and Summary of Findings
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- 5.1Summary of Research
- 5.2Conclusion and Implications
- 5.3Recommendations for Implementation
- 5.4Contribution to Knowledge
- 5.5Reflections on the Research Process
Project Abstract
The installation of an auxiliary water supply network in the department of Agricultural and Bio-environmental Engineering is a critical project aimed at enhancing water availability and distribution within the department premises. Water is a crucial resource in various activities carried out in the department, including research, teaching, and practical demonstrations. The current main water supply system has limitations in terms of capacity and reliability, leading to water shortages and disruptions in daily operations. The auxiliary water supply network project involves the design, planning, and implementation of a secondary water distribution system to complement the existing main supply. The network will consist of additional pipelines, storage tanks, and distribution points strategically located across the department to ensure adequate water supply to all facilities. The project will also incorporate water treatment and quality control measures to ensure that the water meets the required standards for various uses. The installation of the auxiliary water supply network will provide several benefits to the department of Agricultural and Bio-environmental Engineering. Firstly, it will improve water availability and reliability, ensuring uninterrupted water supply for research experiments, practical demonstrations, and other activities. This will enhance the efficiency and effectiveness of operations within the department. Secondly, the project will enhance water conservation efforts by optimizing water use through efficient distribution and management practices. Moreover, the auxiliary water supply network will contribute to the department's sustainability goals by reducing water wastage and promoting responsible water usage. The project aligns with the department's commitment to environmental stewardship and resource conservation. Additionally, the enhanced water supply infrastructure will support future expansion and growth of the department, accommodating potential increases in water demand due to new programs or research initiatives. Overall, the installation of the auxiliary water supply network in the department of Agricultural and Bio-environmental Engineering is a proactive step towards improving water management practices and ensuring a reliable water supply for departmental activities. The project reflects a holistic approach to water infrastructure development, integrating technical, environmental, and operational considerations. By enhancing water availability, quality, and sustainability, the auxiliary water supply network will contribute to the department's mission of promoting excellence in agricultural and environmental engineering research and education.
Project Overview
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</p><p><b>1.0 INTRODUCTION</b></p><p><b>1.1 BACKGROUND<br>OF THE STUDY</b></p><p>Through a constant series of research<br>and development, It was suggested that groundwater is among the purest forms of<br>natural occurring water. Hailstorm G., (2008). Therefore the utilization of<br>groundwater has become very pertinent especially in areas where modern<br>purification schemes do not exist.</p><p>Underground water is tapped via hand<br>dug wells, cancels and boreholes. Borehole involves the use of drilling rigs<br>reacl. The water bearing strata located several matter below the ground. Canals<br>are cut along designated channels proven to have a lot of near surface<br>underground water occurrence, canals are used mostly for agricultural purposes<br>in Nigeria. Water dug wells data back to the ancient days and has persisted to<br>date as the most reliable and economic source of water for rural and<br>metropolitan dwellers Stiles L, (1998).</p><p>Community health schemes in Nigeria<br>have been enhanced by the provision of different hand pump delivered<br>underground water. Some communities have big overhead tanks and the underground<br>water is delivered to such tanks by submersible pumps. In the case both the<br>bacteriological and chemical analysis are done and compared with world health<br>organization standards, to declare the borehole canal or dug well water safe<br>for human consumption.</p><p>Borehole are resistance to many forms<br>of natural and man-made disasters. Although the narrow opening at the top of<br>water source or damage to the pump components below ground than what can be<br>seen on the surface.</p><p>A borehole is a narrow that bored in<br>the ground either vertically or horizontally. A borehole may be constructed for<br>many different purposes, including the extraction of water, other liquid (such<br>as petroleum) or gasses (such as natural gas), as part of a geotechnical<br>investigation, environmental site assessment, mineral exploration, temperature<br>measurement, as a pilot hole for installing piers or underground utilities for<br>geothermal installations, or for e.g in carbon capture and storage Hellstron G;<br>(2008). Borehole is also refers to as hydraulic structure which when properly<br>designed a constructed permits the economic withdrawal of water from an<br>aquifer, Todd D.K (1980).</p><p><b>1.2 <br>STATEMENT OF THE PROBLEM</b></p><p>The borehole of the department of<br>agricultural and bio-environmental engineering Kaduna polytechnic was in a bad<br>working condition period infect the cracking, handling has been removed and the<br>chain transmission was rusted due to the action of rainfall on it. Effort where<br>made to make the borehole function able but it was discovered that the depth or<br>the borehole was shallow which resulted in water shortage during day season. It<br>was suggested after geophysical survey that a new borehole should be<br>constructed which was done to the pump mounting level. There is need to<br>distribute the water to points (places) such as the laboratories and<br>departmental lawns by providing pipe network to deliver the water.</p><p>Therefore the project is<br>to provide pipe network to deliver water to the overhead tank which supply<br>water to the departmental lawn.</p><p><b>1.3 <br>AIMS AND OBJECTIVES</b></p><p>The aims of this project is to<br>provide water supply pipe line system from the drilled pumped borehole to the<br>departmental building and connect it to a procured overhead tank.</p><p>The objectives of the project are :</p><p>i. <br> To carry out a reconnaissance survey to<br>determine the route and distances of the axillary pipe line system from the<br>borehole to the overhead tank;</p><p>ii. To estimate the quantity and<br>types of materials require;</p><p>iii. To conduct a market survey to<br>ascertain the cost of the estimated materials;</p><p>iv. To procure and install an<br>overhead tank that will be connected to the water supply system;</p><p>v. To lay down the axillary pipes<br>from the borehole to the designated point (overhead tank).</p><p>1.4<b> SIGNIFICANCE OF THE STUDY</b></p><p>The borehole water of the department<br>will serve as an easiest source of water to the laboratories and lawns will<br>supplement the constant shortage of water from the public water supply system.</p><p>Also the borehole water will serve as<br>a source of water to the neighboring departments and medical Centre.</p><p>1.5 <b>SCOPE OF THE STUDY</b></p><p>The scope of this project is limited<br>to providing pipe network from the departmental borehole to the overhead tank<br>that supplies water to the departmental lawns.</p>
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