3. WASTE LANDFILLS AND THEIR GEOTEC

3. WASTE LANDFILLS AND THEIR GEOTECFINICAL PROPERTIES
It becomes very
difficult to find
the proper sites
for waste disposal
near the urbanized
area such as
Tokyo and Osaka
Metropolitan area.
In, these areas,
therefore, the
disposal sites
ought to be found
in the sea and at
the same time the
reclaimed waste
landfill should be
used for harbor
and residential
facilities. Solid
waste reclaimed in
the urban area has
a wide variety of material from putrescible
organic waste (such as refuse and
food waste) to relatively inert, non-biodegradable
materials (such as
demolition debris and incinerated ash).
The representative solid landfill material is
the MSW. Although more than 70 % of
the MSW has been incinerated in Japan, it
was disposed of under the raw condition
without incineration in the past landfill
sites of Tokyo and Osaka Ports. Therefore, it is very important to clarify the
geotechnical properties of some refuse
ground for land use.
satisfactory environmental performance of
waste landfills requires that leakage of
hazardous material, gasses generation and
land subsidence be minimized to the
greatest extent practical. The alluvial clay
layer, which is usually deposited in Tokyo
and Osaka Ports, has a function as a
natural liner for the waste containment.
Figure 1 shows an example of the cross-section
of coastal reclamation for waste
disposal. The sheet pile installed inside the
disposal area along the breakwater cuts off leakage from the waste into the public space. The
stability of the waste llandfill was examined by the settlement gauges as shown in this figure.
the monitoring results of ground settlement are illustrated in Fig.-2. Settlement gauges A to
D illustrate the settlement of each layer from diluvial, alluvial, waste-1, waste-2 and 3,
respectively. The contraction of the reclaimed waste layers reached to four meters during three year.
Figure 3 shows in situ monitoring results of several physical and chemical properties
obtained from the different refuse landfills, which were reclaimed at the different time since
1940. According to this figure,we can determine the reference as the stabilizing indices. The geotechnical properties of the landfill were shown in Fig. 4. The averaged N-values are
Gradually decreasing with time due to the degradation of refuse. The settlement rate is 10 to 100 times greater than one of the ordinary clay soils. It is seen that we need more than 20 years until the refuse landfill ground become to be stable. In order to use the refuse landfill
ground for harbor and residential facilities, it is
necessary to design the structure with emphasis
on the deformation characteristics of the refuse
ground. Many precise geotechnical data
acquisitions shall be required.
geotechnical features of the waste landfill
reclaimed with the MSW incinerated are more
stable and uniform. The incinerated ash ground
has the similar engineering properties of sandy
soils except some relationships. on density,
compressibility and dynamic behavior.