Abstract
The energy balance approach is one of the design approaches approved in fall protection standards Z359.6, Z259.16 and SS 607 to ensure that horizontal lifeline systems (HLLSs) are adequately designed. However, this study found that theoretical calculations predicting the total fall distance (hTFD) and maximum arrest load (MAL) using an energy balance approach need to be corrected before they can be used safely. Based on the data from 48 drop tests, the authors determined that energy balance calculations differ significantly from the empirical hTFD and MAL values of HLLSs. As a result, further correction factors are introduced into the theoretical calculations to estimate hTFD and MAL conservatively. These correction factors are estimated from a regression equation derived based on experimental results and theoretical calculations.
Acknowledgements
The support from the Singapore Ministry of Education and the Singapore Ministry of Manpower is acknowledged. The authors would also like to express gratitude to their industry collaborators Unik-Wire Rope & Cables (S) Pte. Ltd., BMS Specialist Training Pte. Ltd., TRACTEL Singapore Pte. Ltd. and PDS International Pte. Ltd. for their support.
Disclosure statement
No potential conflict of interest was reported by the authors.