Posts Tagged ‘fall arrest’

« Older Entries

Fall arrest shock or impact force

Thursday, March 26th, 2009

A lot of people are confused on how to calculate fall arrest shock force… here’s a simple equation to determine the average impact or shock force during fall arrest:

Average impact force, F = mg(h + x) / x

m = mass

g = gravity

h = free fall distance (from initial position to just before deployment of energy absorber or other energy absorbing component)

x =  stretch or extension of the fall arrest system during fall arrest

Note that there are lots of assumptions in this equation. The Canadian standards has good information on design of fall arrest systems.

Tags: , , , , ,
Posted in Fall Protection, Safety Technology/Hazard | No Comments »

Design of fall arrest system

Sunday, July 27th, 2008

Most organisations would apply simple rules such as requiring use of fall arrest system when working near an open edge above 3 metres, but they do not realise the complexity involved in determining whether the fall arrest system is effective or not. Things like stretch of the lanyard, lifeline, slip of fall arresters (deceleration distance), and deployment of the energy absorber will affect the fall clearance. The worker might hit the ground before he realise that his fall arrest system is ineffective!

If you have interest or need in this area and especially if you are based in Australia/ Singapore, let me know (y.goh@curtin.edu.au).  

Tags: ,
Posted in Fall Protection, Safety Technology/Hazard | No Comments »

Are our harnesses designed for heavier workers?

Friday, June 20th, 2008

Do you know that most harnesses are designed based on a 100kg or 220 pounds weight/manikin? If you have particularly heavier workers (say >140kg) do you know that they might not be protected by your usual fall protection equipment?

There could also be concerns for workers significantly lighter than 100kg, as the fall arrest force maintained in fall arrestors might be too high for them.

Who says fall protection PPEs are straightforward?

Tags: , , , ,
Posted in Fall Protection, Safety Technology/Hazard | No Comments »

Fall restraint or fall arrest on mobile elevated work platform?

Monday, April 21st, 2008

My last post on fall from a work platform on a forklift indicates that fall restraint should be used when working on a mobile elevated work platform. I need to highlight that a fall arrest might still be feasible if a sufficiently strong anchor is available.

Australian and New Zealand Standard, AS 1891.4:2000, indicates that if

  • the anchorage has ultimate strength of less than 12kN then a restraint shall be used
  • the anchorage has ultimate strength of 12kN or more but less than 15kN, either restraint or limited free fall (less than 600mm of fall) shall be used
  • the anchorage has ultimate strength of 15kN or more then fall arrest situation is allowed

Tags: , , ,
Posted in Fall Protection, Safety Technology/Hazard | No Comments »

Slides on fall arrest impact force

Friday, April 11th, 2008

Here’s a set of slides by Andrew Sulowski that talks about the considerations of limiting the impact force in relation to direction of the impact force. Note that in U.S. the maximum impact force is not allowed to exceed 8kN as compared to the 6kN in Europe and Australia.

Tags: ,
Posted in Fall Protection, Safety Technology/Hazard | No Comments »

« Older Entries