Abstract

Abundant quantities of fly ash have been produced by thermal power plants situated all over the world. Many applications of fly ash depend upon its pozzolanic reactivity. This reactivity depends upon many factors, including lime content. Many fly ashes show marked improvement with the addition of lime. However, for every fly ash, there is an optimum lime content for its maximum reactivity. There is no well-established simple test to determine the optimum lime content. In this paper an attempt is made to use a simple physical and physico chemical test to determine the optimum lime content. The principle behind the use of a pH test, liquid limit test, and free swell index test to determine the optimum lime content has been explained. All the methods predict nearly the same optimum lime content and correlate well with that determined by the strength test.

References

1.
Raymond
,
S.
and
Smith
,
P. H.
, “
Shear Strength, Settlement and Compaction Characteristics of Pulverized Fuel Ash
,”
Civil Engineering and Public Works Review
, London, Vol.
61
,
1966
, pp.
1107
-
1113
.
2.
Digioa
,
A. M.
and
Nuzzo
,
W. C.
, “
Fly Ash as Structural Fill
,”
Journal of Power Division, Proceedings, ASCE
, Vol.
98
, No.
PO1
,
1972
, pp.
77
-
92
.
3.
Faber
,
J. H.
and
Digioa
,
A. M.
, “
Use of Ash in Embankment Construction
,” Research Record No. 593,
Transport Research Board
,
Washington, DC
,
1974
, pp.
13
-
19
.
4.
Haws
,
M. A.
,
Martin
,
P. L.
, and
Yu
,
T. H.
, “
Devil's Dingle Ash Disposal Works Dam
,”
Proceedings, XI ICSMFE
,
San Francisco
, Vol.
3
,
1985
, pp.
1253
-
1256
.
5.
Leonards
,
G. A.
and
Bailey
,
B.
, “
Pvlverized Coal Ash as Structural Fill
,”
ASCE Journal of Geotechnical Engineering Division
, Vol.
108
, No.
GT4
,
1982
, pp.
517
-
531
.
6.
Toth
,
P. S.
,
Chan
,
H. T.
, and
Cragg
,
C. B.
, “
Coal Ash as Structural Fill, with Special Reference to Ontario Experience
,”
Canadian Geotechnical Journal
 0008-3674, Vol.
25
,
1988
, pp.
694
-
704
.
7.
Capco, “
The Geotechnical Properties of Pulverized Fuel Ash
,”
Report of the China Light and Power Co. Ltd.
, Hong Kong,
1990
, pp.
1
-
26
.
8.
Li
,
K. S.
and
Dutton
,
C.
, “
Geotechnical Properties of Pulverized Fuel Ash as a Reclamation Fill
,” 9th ARC, Theme 5,
1991
, pp.
405
-
408
.
9.
Kishan
,
L.
, “
Sintered Fly Ash Light Weight Aggregate
,”
National Workshop on Utilization of Fly Ash
, May, Roorkee,
1988
, pp.
A39
-
A43
.
10.
Bhatnagar
,
J. M.
,
Goel
,
R. K.
,
Hiralal
,
E. S.
, and
Hajele
,
R. B.
, “
Utilization of Fly Ash in the Manufacture of Clay Flooring/Terracing Tiles from Alluvial Soils
,”
National Workshop on Utilization of fly Ash
, May Roorkee,
1988
, pp.
A55
-
A58
.
11.
Theis
,
T. L.
and
Richter
,
R. O.
, “
Chemical Specification of Heavy Metals in Power Plant Ash Pond Leachate
,”
Environmental Science and Technology
 0013-936X, Vol.
13
, No.
2
,
02
1979
, pp.
219
-
224
.
12.
Vordonis
,
L.
,
Koutsoukos
,
P. G.
,
Tzannini
,
A.
, and
Lycourghiotis
,
A.
, “
Uptake of Inorganic Orthophosphate by Greek Fly Ashes Characterized Using Various Techniques
,”
Colloids and Surfaces
 0166-6622, Vol.
34
,
1989
, pp.
55
-
68
.
13.
Hoffman
,
R. V.
,
Elceman
,
G. A.
,
Long
,
Y.-T.
, et al
, “
Mechanism of Chlorination of Aromatic Compounds Adsorbed on the Surface of Fly Ash from Municipal Incinerators
,”
Environmental Science Technology
, Vol.
24
, No.
11
,
1990
, pp.
1635
-
1641
.
14.
Sinhamahapatra
,
P. K.
and
Ray
,
P. K.
, “
Utilization of Steel Plant Solid Waste-Fly Ash
,”
Chemical Age of India
, Vol.
34
, No.
12
,
12
1983
, pp.
741
-
749
.
15.
Uppal
,
H. L.
and
Dhawan
,
P. K.
, “
A Resume on the Use of Fly Ash in Soil Stabilization
,”
Road Research Papers
, No.
95
,
1968
, pp.
1
-
12
.
16.
Torrey
,
S.
,
Coal Ash Utilization: Fly Ash, Bottom Ash and Slag
,
Noyes Data Corporation
,
Park Ridge, NJ
,
1978
.
17.
Mohan
,
R.
,
Dinesh
,
C.
,
Gupta
,
R. L.
, and
Jain
,
S. K.
, “
Production of Calcium Silicate Bricks from Fly Ash
,”
National Workshop on Utilization of Fly Ash
, May Roorkee,
1988
, pp.
A59
-
A62
.
18.
Motoes
,
M.
and
Davidson
,
D. T.
, “
Lime and Fly Ash Proportions in Soil Lime and Fly Ash Proportions in Soil Lime and Fly Ash Mixtures and Some Aspects of Soil Lime Stabilization
,”
H.R.B. Bulletin
335
,
1962
, pp.
40
-
59
.
19.
Viskohil
,
R. K.
,
Handy
,
R. L.
, and
Davidson
,
D. T.
, “
Effect of Density on the Strength of Lime Fly Ash Stabilized Soil
,”
H.R.B. Bulletin
183
,
1957
, pp.
5
-
15
.
20.
Indraratna
,
B.
,
Nutalaya
,
P.
, and
Kuganenthria
,
N.
, “
Stabilization of a Dispersive Soil by Blending with Fly Ash
,”
Quarterly Journal of Engineering Geology
 0481-2085, Vol.
24
,
1991
, pp.
275
-
290
.
21.
Helmath
,
R.
,
Fly Ash in Cement and Concrete
,
Portland Cement Association, Research and Development Laboratories
,
Skokie, IL
,
1987
.
22.
Yudhbir
, and
Honjo
,
Y.
, “
Application of Geotechnical Engineering to Environmental Control
,” Theme lecture 5, 9ARC Bangkok, Thailand, Vol.
2
,
1991
, pp.
431
-
469
.
23.
Gray
,
D. H.
and
Lin
,
Y. K.
, “
Engineering Properties of Compacted Fly Ash
,”
Proceedings, ASCE, Journal of the SMFE
, Vol.
98
, No.
SM4
,
1972
, pp.
361
-
380
.
24.
Moh
,
Z. C.
, “
Soil Stabilization with Cement and Sodium Additives
,”
Journal of the Soil Mechanics and Foundations Division, Proceedings of the American Society of Civil Engineers
, Vol.
88
, No.
SM6
,
12
1962
, pp.
81
-
109
.
25.
Neville
,
A. M.
,
Properties of Concrete
,
The English Language Book Society and Pitman Publication
,
London
,
1981
.
26.
Jackson
,
M. L.
,
Soil Chemical Analysis
,
Prentice-Hall International
,
London
,
1958
.
27.
British Standards Institution
,
1975
, Test 2(A),
Determination of Liquid Limit
, Preferred Method Using Cone Penetrometer, BS 1377-
1975
.
28.
Sridharan
,
A.
and
Rao
,
S. M.
, “
Free Swell Index of Soils, A Need for Redefinition
,”
Indian Geotechnical Journal
, Vol.
15
, No.
2
,
1985
, pp.
94
-
99
.
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