Support position optimization with safety factor in the demolition and rebuilding of a bridge using the SPMT method: A case study

Yu, Xiangdong; Wang, Huihui; Jing, Haiquan

doi:10.1177/13694332211053692

Cited by 3 publications

(2 citation statements)

References 12 publications

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“…Currently, bridge demolition methods mainly include blasting, static cutting, etc. To minimize the impact of existing bridge demolition on urban traffic, SPMT (Self-propelled modular transporter) becomes a trend of Accelerated Bridge Deconstruction Technology [12]. The SPMT technology has been successfully applied in projects such as the overall replacement of the superstructure of the Beijing Sanyuan Bridge, the demolition of the Kaiyang Expressway overpass in Guangdong [13], etc.…”

Section: Introductionmentioning

confidence: 99%

Low-Carbon Emission Demolition of an Existing Urban Bridge Based on SPMT Technology and Full Procedure Monitoring

et al. 2023

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Due to the need for comprehensive transportation hub construction, an existing bridge in a bustling urban area with an operation duration of 25 years was required to be demolished. Based on Life Cycle Assessment (LCA), this paper proposes a scheme of "Self-propelled modular transporter (SPMT) technology + large segment cutting" to compare the carbon emissions of demolition schemes qualitatively and quantitatively. To ensure structural safety during demolition, the finite element analysis was used to simulate the entire demolishing process, and measuring points were set up to monitor the deformation of the main girder in real time under various demolition conditions. The results indicate that the scheme of SPMT has the lowest carbon emissions during the demolition stage. Additionally, the long-term prestress loss shall be considered when demolishing existing bridges; the suggested 25% proportional value for the long-term prestress loss of the Caitian Bridge is appropriate, which is determined by comparing the calculated results from various formulas. The values of the calculated and measured deformations of the main girder under different working conditions are in good agreement, with errors mostly within 10% and a maximum of no more than 14.7%. The demolition of the entire bridge was completed in a total of 28 h with little noise and pollution, and the impact on daily traffic was avoided, proving that the proposed “SPMT technology + large segment cutting” scheme is safe, efficient, and achieves the goal of green, environmentally friendly, and rapid demolition.

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Section: Introductionmentioning

confidence: 99%

Low-Carbon Emission Demolition of an Existing Urban Bridge Based on SPMT Technology and Full Procedure Monitoring

et al. 2023

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“…The US Federal Highway Administration has introduced the Accelerated Bridge Construction (ABC) method as a means to enhance construction speed, shorten overall construction duration, and mitigate both traffic disturbances and project costs [15][16][17][18][19] . They have also successfully carried out the rapid demolition and replacement of more than 100 bridge superstructures, with notable results based on the SPMT construction method.…”

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A method for rapid demolition of a crossline arch bridge: a case study

Zhu,

He,

Xiao

2024

Sci Rep

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To reduce the adverse impact of demolition of the symmetrical rigid frame arch bridge overcrossing the highway with over-saturated traffic flow, a rapid demolition method based on the Self-Propelled Modular Transporter (SPMT) technique was developed in this study. The calculation formulae for reaction forces of the supporting brackets, as well as driving force and stability of SPMTs, were derived by analyzing the stability, synchronization, and influencing parameters of the cut bridge body—transport system. In addition, a monitoring system during the whole process was developed to ensure the demolition safety. An application of demolishing a crossline symmetrical rigid frame arch bridge in China within 5 h has been presented. The results showed that the proposed method can be successfully applied in real projects, leading to significant reduction in traffic impact, energy consumption, and environmental pollution.

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Feasibility Evaluation of Oversize Load Transportation Using Conditional Rewarded Deep Q-Networks

Son,

Kim,

Jung

et al. 2024

IEEE Trans. Intell. Transport. Syst.

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Support position optimization with safety factor in the demolition and rebuilding of a bridge using the SPMT method: A case study

Cited by 3 publications

References 12 publications

Low-Carbon Emission Demolition of an Existing Urban Bridge Based on SPMT Technology and Full Procedure Monitoring

Low-Carbon Emission Demolition of an Existing Urban Bridge Based on SPMT Technology and Full Procedure Monitoring

A method for rapid demolition of a crossline arch bridge: a case study

Feasibility Evaluation of Oversize Load Transportation Using Conditional Rewarded Deep Q-Networks

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