Journal of Recent Activities in Infrastructure Science

This paper investigates the methods used for gravity pipe inspection. However, a discussion of pipe inspection methods cannot truly happen without and understanding of the preliminary process of pipe prioritization. This is because the vast amount of just gravity pipeline system in use today. For instance, the amount of time, money and resources to aimlessly inspect all suspected pipelines in India alone would be astronomical. So, presented here is a reason why the employment of algorithms and analysis tools must be used to priorities the pipeline systems to see which one need inspection for further analysis. The study goes on to describe innovative techniques used for pipe inspection itself and what kind of innovations should have more attention such as wave and sound analysis that allow for greater inspection rates. This research gives a brief overview of the process of pipe inspection and aspect of cost saving algorithms that can allow more efficiency to enter the field.

Berardi L., Giustolisi O., Savic D. & Kapelan Z. An effective multi-objective approach to prioritization of sewer pipe inspection. Water Science & Technology. 2009; 60(4): pp. 841.

He S. & Koizumi A. Damage Discrimination Analysis with Quantification Theory for Sewage Pipe System. Journal of Pipeline Systems Engineering and Practice. 2013; 4(1): pp.11-16.

Kunzel J., Werner T., Eisert P. & Waschnewski J. Automatic Analysis of Sewer Pipes Based on Unrolled Monocular Fisheye Images. IEEE. 2018: pp. 2019.

Nassiraei A.A.F., Kawamura Y., Ahrary A., Mikuriya Y. & Ishii K. A New Approach to the Sewer Pipe Inspection: Fully Autonomous Mobile Robot "KANTARO". IEEE. 2006: pp. 4088.

Najafi M. & Gokhale S.B. Trenchless technology: pipeline and utility design, construction, and renewal. McGraw-Hill, New York. 2005.

Sasaki, K., Katagiri T., Yusa N. & Hashizume H. Experimental verification of long-range microwave pipe inspection using straight pipes with lengths of 19–26.5 m. NDT and E International. 2018; 96: pp. 47-57.

Kaushal V. Earthquake Resistant Construction. Engineering Sciences International Research Journal. 2014; 2(1): pp. 185-187.

Kaushal V. & Guleria S. P. Geotechnical Investigation of Black Cotton Soils.” International Journal of Advances in Engineering Sciences. 2015; 5(2): pp. 15-22.

Kaushal V. Influence of Jute Fibres on the Unconfined and Compressive Strength of Alkaline Soil. Journal of Civil Engineering and Environmental Technology. 2015; 2(4): pp. 335-338.

Sharma J., Najafi M., Marshall D., Kaushal V., & Hatami M. Development of a Model for Estimation of Buried Large Diameter Thin Walled Steel Pipe Deflection due to External Loads. (Accepted), Journal of Pipeline Systems Engineering and Practice, ASCE. 2019; 10.

Kaushal V., Najafi M., & Love J. A State-of-the-Art Review on Microbially Induced Corrosion of Concrete in Municipal Sewerage System. Journal of Pipeline Systems Engineering and Practice, ASCE (In-process). 2019.

Kaushal V. Green Manufacturing. Proc. National Seminar on New Horizons in Engineering and Technology, India. 2013.

Najafi M., Sattler M., Schug K., Kaushal V., & Iyer G. Evaluation of Potential Release of Organic Chemicals in the Steam Exhaust and Other Release Points during Pipe Rehabilitation Using the Trenchless Cured-In-Place Pipe (CIPP) Method. Final Report. 2018.

Berardi L., Giustolisi O., Savic D. & Kapelan Z. An effective multi-objective approach to prioritization of sewer pipe inspection. Water Science & Technology. 2009; 60(4): pp. 841.

He S. & Koizumi A. Damage Discrimination Analysis with Quantification Theory for Sewage Pipe System. Journal of Pipeline Systems Engineering and Practice. 2013; 4(1): pp.11-16.

Kaushal V., & Guleria S.P. Study of Tensile Strength and Mineralogical Behavior of Flyash-Lime-Gypsum Composite Reinforced with Jute Fibres. Proc. National Conference on Innovations without limits in Civil Engineering (IWLCE 2016), India. 2016.

Kaushal V., & Sharma V. Novel Composite Mix Based on Jute Fibres for Building Construction. Proc. International Conference on Redefining Textiles: Cutting Edge Technology of the Future (RTCT-2016), NIT Jalandhar, India. 2016.

Kaushal V., Najafi M. & Love J. Qualitative Investigation of Microbially Induced Corrosion of Concrete in Sanitary Sewer Pipe and Manholes. Proc. ASCE Pipelines 2018, Toronto, Canada. 2018: pp. 768-775.

Tabesh A. Najafi M., & Kaushal V. Environmental Impact Assessment of Truck, Railroad, and Underground Freight Transportation System. Proc. International Symposium on Underground Freight Transportation (ISUFT-2018), Beijing, China. 2018.

Kaushal V., Iyer G., Najafi M., Sattler M., & Schug K. Review of Literature for Cured-in-Place Pipe (CIPP) Chemical Emissions and Worker Exposures. Proc. Transportation Research Board Annual Meeting, Washington, D.C. 2019.

Duran O., Althoefer K. & Seneviratne L.D. Automated sewer pipe inspection through image processing, IEEE. 2002: pp. 2551.

Elmasry M., Zayed T. & Hawari A. Defect-Based ArcGIS Tool for Prioritizing Inspection of Sewer Pipelines. Journal of Pipeline Systems Engineering and Practice. 2018; 9(4): pp. 0401-8021.

Kaushal V., Najafi M., Sattler M., & Schug K. Evaluation of Potential Release of Organic Chemicals in the Steam Exhaust and Other Release Points during Pipe Rehabilitation Using the Trenchless Cured-In-Place Pipe (CIPP) Method. Proc. North American Society for Trenchless Technology (NASTT) No-Dig Conference, Chicago, IL. 2019.

Kaushal V., Najafi M., Sattler M., & Schug K. Review of Literature on Chemical Emissions and Worker Exposures Associated with Cured-In-Place Pipe (CIPP) Installation. Proc. ASCE Pipelines 2019, Nashville, TN. 2019.