Design of a Mechanical Sealing Device for Robotic Water Distribution Pipe Rehabilitation

2020 ◽

Author(s):

Yip Fun Yeung ◽

Emily Genevriere ◽

Kamal Youcef-Toumi

Keyword(s):

Surface Roughness ◽

Water Distribution ◽

Compound Structure ◽

Successful Performance ◽

Layer Compound ◽

Compression Load ◽

Global Concern ◽

Pipe Rehabilitation ◽

Sealing Device

Abstract Water distribution pipe maintenance is a global concern. In this study, we propose a Rehabilitation In-Pipe Robot (R-IPR) to perform pipe rehabilitation operations and contain induced contamination. The robot features three modules: a pipe cleaning module, a mechanical sealing module, and an in-pipe manipulator module. This study emphasizes the comprehensive design of the mechanical sealing module. We introduce a multi-layer compound structure of the seal to deal with two characteristics of tuberculated pipe surfaces: 1. macroscopical surface roughness, 2. overhang in foundation profile. The prototype excels in sealing foundation overhang and requires 45% lower compression load than a baseline seal to function. The prototype seal is integrated into the R-IPR. Finally, experiments of the overall system demonstrate the successful performance of the first contamination-less in-pipe rehabilitation.

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Choosing a Water Distribution Pipe Rehabilitation Solution Using the Analytical Network Process Method

Water ◽

10.3390/w10040484 ◽

2018 ◽

Vol 10 (4) ◽

pp. 484 ◽

Cited By ~ 8

Author(s):

Ioan Așchilean ◽

Ioan Giurca

Keyword(s):

Water Distribution ◽

Analytical Network Process ◽

Network Process ◽

Pipe Rehabilitation ◽

Process Method

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Pipe breaks and the role of leaks from an economic perspective

Water Science & Technology Water Supply ◽

10.2166/ws.2003.0099 ◽

2003 ◽

Vol 3 (1-2) ◽

pp. 163-169 ◽

Cited By ~ 2

Author(s):

A. Colombo ◽

B.W. Karney

Keyword(s):

Environmental Sustainability ◽

Distribution System ◽

Water Distribution ◽

Major Elements ◽

Hydraulic Transients ◽

Attenuation Effect ◽

Leak Location ◽

Pipe Rehabilitation ◽

Analytical Expressions

A map depicting the major elements, interactions, and life cycle analysis issues of a typical water distribution system is presented as a network labyrinth. From this, focus is placed on the influence of leaks on energy and water consumption as well as the dissipation of hydraulic transients. Straightforward analytical expressions are derived in order to relate the energy efficiency of a leaky pipe to leak location and orifice properties. The ability of leaks to relieve pressure during hydraulic transients is briefly discussed with several challenges and issues surrounding the quantification of this attenuation effect being put forward. Considered from the broader perspective of the network labyrinth, a better understanding of leak related effects has implications for pipe rehabilitation models, system economics and environmental sustainability.

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