Unveiling the Depths: Geotechnical Investigation for Indore's Underground Metro Rail

 The city of Indore is gearing up to commence construction activities of its own underground metro project, adopting cutting-edge technologies of the urban transportation sector. The success in building such an ambitious, eco-friendly, safe, and economically effective engineering structure relies largely on the characteristics of the ground that the structure is being built in. This is where the role of Geotechnical Studies/Investigation takes a crucial seat. Geotechnical Investigations encompass a wide range of techniques that are exercised to achieve acquaintance with the project area's sub-surface conditions and involve field work, collection of soil and rock samples, laboratory testing, analysis of data, and reporting.

Brief Geotechnical Study

The Indore underground metro comprises a  8.626 km length of tunnel and Seven underground stations named Airport Station, BSF/ Kalani Nagar station, Ram Chandra Nagar Station, Bada Ganpati Station, Chota Ganpati Station, Rajwada Station, Indore railway Station. The Indore Metro Rail Corporation Limited (MPMRCL) has carried out a brief Geotechnical study along the underground metro rail alignment. The study aimed to obtain preliminary sub-surface Geological and Geotechnical data to help the bidders understand the project area in terms of its sub-surface conditions and thus prepare the best bids. Availability of Geotechnical data helps engineers to conceptualize best-suited engineering designs, which are directly proportional to project cost estimates.

Approximately 200 boreholes were executed for the tunnel section and stations. These boreholes were planned to provide a brief understanding of the geology of the area and not as a basis for detailed designing. The tunnel section boreholes were planned and executed approximately 50 meters apart, while the station boreholes were executed to gather data from the entire station area. All the boreholes were explored to a depth of 30 meters from the existing ground level.

Field Work and Sample Collection

Sample collection is a key aspect of any Geotechnical Investigation assignment. To carry out the field work, MPMRCL has appointed a firm with expertise in the complete spectrum of Geotechnical services. Boreholes were executed using the rotary drilling method, wherein a setup powered by a rotary cutting head at the end of the shaft advances into the ground as it rotates with the help of mechanical/hydraulic engines. Different techniques were used to collect soil and rock samples, which were then logged for their Geological and Geotechnical properties at the site and dispatched to the laboratory with proper indexing.

A few in-situ geotechnical tests were also conducted at the site, such as the Standard Penetration Test and Pressure Meter Test.

 

 

Laboratory Test

Laboratory testing on soil and rock samples is carried out to determine their engineering properties, which are required for designing purposes. Necessary laboratory tests were carried out on soil and rock samples collected at the site, such as grain size analysis, triaxial test, tests for plasticity index and water absorption on soil samples, and unconfined compressive test, point load index test, and Brazilian tensile strength test on rock samples. The factual data from the tests were provided to the bidders.

Report

The Geotechnical report comprises the findings of the field work as well as the laboratory testing on the soil and rock samples. The data will be represented in the form of bore logs, test data, and interpretation of the results.

The present project area possesses soil strata upto about 9 meter depth and thereafter rock strata has been observed upto 30 meter depth. It may be noted that the maximum depth of underground section will be about 30 meter in depth. The stratum at tunneling depth mostly consists of moderate to highly weathered sandstone.

Conclusion

The Geotechnical Investigation plays a crucial role in the successful construction of the underground metro rail in Indore. By obtaining detailed data on the sub-surface conditions, engineers can design the most appropriate structures, ultimately contributing to the overall success of the project. With the findings from the Geotechnical study in hand, the construction of the Indore underground metro rail can proceed with confidence, ensuring not only the safety and efficiency of the system but also its environmental sustainability and economic viability.