EFFECTIVENESS OF THE TREATMENT OF FINE-GRAINED LATERITIC SOIL USING SUGARCANE BAGASSE ASH (SCBA) FOR USE IN MODERN DAY CONSTRUCTION

  • Type: Project
  • Department: Civil Engineering
  • Project ID: CVE0218
  • Access Fee: ₦5,000 ($14)
  • Pages: 66 Pages
  • Format: Microsoft Word
  • Views: 442
  • Report This work

For more Info, call us on
+234 8130 686 500
or
+234 8093 423 853

ABSTRACT

Sugarcane as an agricultural product is a readily available source of food for its sugar

content. However, Sugarcane Bagasse Ash (SCBA) is the bi- product formed at sugar

industries from the burning of sugarcane after the sugar content has been extracted.

Sugarcane Bagasse Ash (SCBA) is a fibrous waste product containing mainly aluminum and

silica, calcium ions to produce calcium aluminate hydrate (CAH) and calcium silicate

hydrate (CSH) shown in the pozzolanic reaction below.

Ca2+ + 2(OH)- + Al2O3 (clay alumina > CAH

Ca2+ + 2(OH)- + SiO3 (clay silica)) > CSH

Over the years, sugarcane has posed adverse hazardous environmental impacts due to the

poor disposal methods. From research, sugarcane bagasse ash (SCBA) has been found to

improve the stability and overall suitability of any type of soil for engineering (construction)

purposes amongst other uses.

During my project, 1%, 2%, and 3% sugarcane bagasse ash (SCBA) was mixed with

equivalent proportions by weight of dry laterite soil.

Results:

a. The liquid limit (LL) increased from 35% to 46% and gradually decreased to 41%

with increase in sugarcane bagasse ash (SCBA) content.

b. The plastic limit (PL) increased from 22.5% to 28.3% and gradually increased to

32.9%.

c. The plastic index (PI) increased from 12.5% to 17.7% and gradually decreased to

8.1 with increase in sugarcane bagasse ash (SCBA) content.

d. The shear strength increased gradually I.e. C= 17KN/m2 @ 20o showing a relatively

increased cohesion as angle reduced.

e. Moisture content remained relatively same between (17.5 - 19.2) % as dry density

reduced from 1.738g/cm3 to 1.702g/cm3

The California Bearing Ratio (CBR) values increased gradually from 20.11% to 26.06%.

Addition of increased SCBA content is however necessary to attain minimum CBR standard

of 30%. (BS 1990).

KEYWORDS: Sugarcane, Sugarcane Bagasse, Sugarcane Bagasse Ash (SCBA),

Agricultural Waste, Stabilization, Treatment, Atterberg Limits ((Plastic (PL) & Liquid (LL)

Limits) & Plastic Index (PI)), Shear Stress, California Bearing Ratio (CBR), Compaction,

Fine-Grained Soil, Particle Size Distribution.

vi

TABLE OF CONTENTS

DECLARATION.............................................................................................................................i

CERTIFICATION ..........................................................................................................................ii

DEDICATION...............................................................................................................................iii

ACKNOWLEDGEMENT ............................................................................................................iv

ABSTRACT....................................................................................................................................v

LIST OF FIGURES.......................................................................................................................ix

LIST OF TABLES.........................................................................................................................xi

CHAPTER ONE.............................................................................................................................1

INTRODUCTION ..........................................................................................................................1

1.1 BACKGROUND OF STUDY....................................................................................1

1.1.1 Soil Stabilization..........................................................................................................1

1.1.2 Laterite Soil..................................................................................................................1

1.1.3 Sugarcane, Bagasse & Sugarcane Bagasse Ash (SCBA)..........................................1

1.2 RESEARCH PROBLEMS..........................................................................................2

1.3 JUSTIFICATION FOR RESEARCH ........................................................................2

1.4 AIM AND OBJECTIVES OF RESEARCH..............................................................2

1.4.1 Aim of Research ..........................................................................................................2

1.4.2 Objectives of Research................................................................................................2

1.5 PROBLEM STATEMENT .........................................................................................3

1.6 RESEARCH METHODOLOGY ...............................................................................3

1.7 SCOPE OF STUDY ....................................................................................................3

CHAPTER TWO ............................................................................................................................4

LITERATURE REVIEW...............................................................................................................4

2.1 LOCATION OF STUDY............................................................................................4

2.1.1 Material Sourcing ........................................................................................................4

2.2 SOIL .............................................................................................................................5

2.2.1 Soil Formation .............................................................................................................5

2.2.2 Soil Weathering ...........................................................................................................5

2.2.3 Factors affecting Soil Weathering ..............................................................................6

2.2.4 Soil Features and Composition ...................................................................................6

2.3 SUGARCANE BAGASSE ASH (SCBA).................................................................6

2.3.1 Introduction..................................................................................................................6

2.3.2 Composition of Sugarcane Bagasse Ash (SCBA).....................................................7

vii

2.3.3 Formation of Sugarcane Bagasse Ash (SCBA) .........................................................7

2.3.4 Case Studies (Wubshet, 2013)....................................................................................8

2.4 SOIL STABILIZATION...........................................................................................10

2.4.1 Methods of Soil Stabilization ...................................................................................10

2.4.2 Effects of a Well Compacted Soil ............................................................................11

2.4.3 Processes in Compaction Efforts..............................................................................11

2.4.4 SCBA Stabilization of a Fine-Grained Lateritic Soil..............................................11

CHAPTER THREE ......................................................................................................................14

MATERIALS & ANALYSIS TECHNIQUES.......................................................................14

3.1 INTRODUCTION.....................................................................................................14

3.2 MATERIALS.............................................................................................................14

3.3 ANALYSIS TECHNIQUES.....................................................................................14

3.3.1 Sample Preparation....................................................................................................15

3.4 PRELIMINARY SOIL LABORATORY TESTS...................................................15

3.4.1 Atterberg Limits Experiment ....................................................................................15

3.4.1.1 The Liquid Limit Experiment (LL) ..........................................................................16

3.4.1.2 The Plastic Limit Test (PL).......................................................................................16

3.4.2 Compaction Experiment on Soil...............................................................................18

3.4.3 Factors Affecting Soil Compaction ..........................................................................19

3.4.4 Factors Affecting Degree of Soil Compaction ........................................................19

3.4.2.1 Standard Proctor Compaction Test...........................................................................20

3.4.3 California Bearing Ratio (CBR) Experiment...........................................................22

A. Apparatus...................................................................................................................23

B. Test Procedure ...........................................................................................................23

3.4.4 Direct Shear Strength Experiment............................................................................24

A. Apparatus...................................................................................................................25

B. Procedure....................................................................................................................26

CHAPTER FOUR ........................................................................................................................27

RESULTS AND DISCUSSION..............................................................................................27

4.1 ATTERBERG LIMITS (LL, PL & PI) ....................................................................27

4.1.1 Liquid Limit (LL)......................................................................................................31

4.1.2 Plastic Limit (PL) ......................................................................................................31

4.1.3 Plastic Index (PI) .......................................................................................................32

4.2 DIRECT SHEAR STRESS.......................................................................................33

4.3 COMPACTION TEST..............................................................................................37

viii

4.4 CALIFORNIA BEARING RATIO (CBR)..............................................................43

CHAPTER FIVE ..........................................................................................................................48

CONCLUSION AND RECOMMENDATION......................................................................48

5.1 CONCLUSION..........................................................................................................48

5.2 RECOMMENDATION ............................................................................................48

REFERENCES .............................................................................................................................49

EFFECTIVENESS OF THE TREATMENT OF FINE-GRAINED LATERITIC SOIL USING SUGARCANE BAGASSE ASH (SCBA) FOR USE IN MODERN DAY CONSTRUCTION
For more Info, call us on
+234 8130 686 500
or
+234 8093 423 853

Share This
  • Type: Project
  • Department: Civil Engineering
  • Project ID: CVE0218
  • Access Fee: ₦5,000 ($14)
  • Pages: 66 Pages
  • Format: Microsoft Word
  • Views: 442
Payment Instruction
Bank payment for Nigerians, Make a payment of ₦ 5,000 to

Bank GTBANK
gtbank
Account Name Obiaks Business Venture
Account Number 0211074565

Bitcoin: Make a payment of 0.0005 to

Bitcoin(Btc)

btc wallet
Copy to clipboard Copy text

500
Leave a comment...

    Details

    Type Project
    Department Civil Engineering
    Project ID CVE0218
    Fee ₦5,000 ($14)
    No of Pages 66 Pages
    Format Microsoft Word

    Related Works

    ABSTRACT Sugarcane as an agricultural product is a readily available source of food for its sugar content. However, Sugarcane Bagasse Ash (SCBA) is the bi- product formed at sugar industries from the burning of sugarcane after the sugar content has been extracted. Sugarcane Bagasse Ash (SCBA) is a fibrous waste product containing mainly aluminum... Continue Reading
    ABSTRACT Sugarcane as an agricultural product is a readily available source of food for its sugar content. However, Sugarcane Bagasse Ash (SCBA) is the bi- product formed at sugar industries from the burning of sugarcane after the sugar content has been extracted. Sugarcane Bagasse Ash (SCBA) is a fibrous waste product containing mainly aluminum... Continue Reading
    TABLE OF CONTENT certification _ I Declaration _ Ii Dedication _ Iii Acknowledgement Iv Table Of Content V List Of Figures Vii List Of Tables Viii Abstract Viii CHAPTER ONE : INTRODUCTION _ 1 1.1  Background of Study _ 1 1.2  Objective of Study _ 4 1.3  Significance of Study _ 5 1.4  Scope of Study _ 5 CHAPTER TWO : LITERAURE REVIEW _ 6 2.1... Continue Reading
    ABSTRACT A lateritic soil classified as sandy clay or (CL) and A-7-6 (5) according to Unified Soil Classification System (USCS) and AASHTO classification system respectively,was treated with up to 10% pulverized steel slag (an industrial waste product) by dryweight of soil. Elemental and chemical analysis of the steel slag was determined using... Continue Reading
    ABSTRACT Agro-based and bio-wastcs generally referred to as solid wastes are good stabilization materials. Different solid wastes have been used by various researchers combining two or more at different times to treat soil and improve its engineering properties since the long term performance of any construction project depends on the soundness of... Continue Reading
    ABSTRACT Agro-based and bio-wastcs generally referred to as solid wastes are good stabilization materials. Different solid wastes have been used by various researchers combining two or more at different times to treat soil and improve its engineering properties since the long term performance of any construction project depends on the soundness of... Continue Reading
    ABSTRACT Geotechnical evaluation of sub grade and subbase materials from Redemption camp and Igbesa and Ijuri area within the sedimentary terrain of Eastern Dahomey basin of South-Western Nigeria were analyzed for their physical and engineering properties required for construction purposes. Total of 13 soil samples were taken, 6 from the location... Continue Reading
    ABSTRACT This study is aimed at determining the suitability of laterite soil derived from granite-gneiss from the burrow pit along Km 4 Ologuneru-Eleyele Road as a subgrade or subbase material Three samples were collected at different height from a burrow pit in the study area and were subjected to soil tests such as natural moisture content,... Continue Reading
    ABSTRACT The main aim and objective of the project is to evaluate the foundation soils along atan-agbara road as highway subgrade and sub-base material, to determine the geotechnical basis (if any) for the observed failure cases as studied. The methodology stage involves; Field investigation which entails Desk study stage and Reconnaissance survey... Continue Reading
    ABSTRACT In this work, an experiment to determine the effects of different tillage practices on the rate of soil infiltration were carried out. Udenu Local Government of Enugu State which is my hometown was taken as a case study. For this experiment to be carried out a piece of land which was divided into four different plots of land were used.... Continue Reading
    Call Us
    whatsappWhatsApp Us