Browsing through various social media channels, I came across a number of worrying examples of how NOT to use specialist High Reach Demolition equipment. One such example led to the tragic loss of life, a high reach operator who I "suspect" made a fatal mistake... undercutting a building, which subsequently collapsed on top of the cab of the machine. Very sad and very concerning....
The variety and sheer quantity of alarming images that I saw, prompted me to share some of our management procedures, we use to ensure the safe use of this potentially hazardous equipment. These procedures have been developed and refined over the last 20 years of our extensive experience working with this equipment. We currently a variety of rigs which provide a diverse range of working configurations. Having said that some of our experience has been as a result of near misses and incidents on our own projects. The procedures implemented have ensured that these mistakes have not been repeated.
I hope that this post may help people when considering the safe use of this specialist method of demolition....
Generally check that all necessary experience, competencies and certification are in place relevant to the project in hand. This should include:- management, designers, supervision, operators, supporting staff to include the plant and equipment itself.
The risk profile directly correlates to the size of the building and therefore the size of the machine used. As each increases so do the risks of the operation.
Main points to consider (not intended to be everything)...
1 - Check that all possible methods of demolition are assessed and evaluated prior to concluding that High Reach Demolition is the correct method to select. Possible factors to consider....
We have demolished structures where we have deconstructed floor by floor, then used high reach demolition techniques, followed by explosive demolition all on the same building! In demolition the options are endless.
2 - If selected, ensure that the equipment proposed is the correct size to carry out the work. The machine will need to work safely with adequate reach and height. The safe working reach is not the same dimension as the machines maximum reach, we generally reduce the machines maximum reach taken from the spec sheet between 20-35% to calculate the safe working height for demolition. Although each project and set of circumstances will require a more detailed review to ensure all of the factors are considered before finally selecting the correct plant. So a narrow chimney is different to a deep high rise structure.
3 - Ensure that the equipment can safely carry the right demolition tool at the end of the high reach boom, this must be suited to the machine first and foremost and then secondly to the structure being demolished. The attachment will need to have the correct jaw appropriate for crushing, cracking or shearing, the right power and opening size to ensure the material can be demolished safely and efficiently. So heavy tall structures such as power stations may be within the machines reach, but the tool that is used at the end of the high reach boom may not demolish the building. The temptation is to put heavier tools on the end of machines that are simply not designed to carry them. This should of course should be avoided. Working within the guidelines set by the manufacturer is essential in this respect.
4 - Check the ground conditions typically over site slabs, ground make up, water table level, look generally for voids, basements and the like. This information should be collated by suitably qualified engineers in the form of a ground investigation report. The report should be issued to the Demolition Design Engineer typically a professionally qualified Civil or Structural Engineer who is responsible for all aspects of the demolition design on the project. Appropriate levels of Professional Indemnity insurance must be in place.
5 - Some of these machines weight over 200 tonnes, they have significant dead loads and very lively live loads! So it is essential that the area that the machine travels on and more importantly the area that the machine works from is treated in the same way as a piling rig. It is imperative that the Demolition Design Engineer ensures that the plant is stable at all times. The ground investigation report will be used to assess the need for any temporary works and then the design of such temporary works. Typically steel road plates and crane mats are used for access, engineered fill conforming to a recognised specification is used for the working platform for example crushed 6F2. If ramps are intended there use should be limited they should also form part of the temporary works design. Demolition debris that is not pulverised or crushed to 6F2 should not be used.
6 - Check the structure on site using a competent engineer to establish in detail the following:-
For some structures it may be necessary for temporary works to be designed and installed to facilitate the same demolition. This is particularly relevant for pre-cast concrete large panel high rise structures, that become very unstable when using High Reach Demolition techniques.
This I believe is one of the main problems with a lot of demolition projects generally and High Reach Demolition projects are no exception....
7 - Ensure that a suitably qualified, experienced structural or civil engineer has been central to the development of the demolition method statement, safe systems of work and overall sequence of the demolition to safely reduce the structure to the ground, safely without any premature collapse. That the working method and sequence is simply and clearly set out by whatever means to suit each company, so drawings, photos and text are common with the use of videos and 4D models now being used also. It is essential that the plan is effectively communicated to the site delivery team, that they understand the documents, and have been included in there development. All general site management procedures apply with regard to proposed changes, new information and contingency planning. Any new information gathered as the site works progress must be fed back to the Demolition Design Engineer to ensure that no unnecessary risks are taken. Any proposed changes to the working method and sequence must not proceed without being discussed, proposed and considered by the Demolition Design Engineer.
This post is not intended to be the absolute guide that covers every aspect of the process for High Reach Demolition or demolition generally. I may have missed some points that other people feel are equally if not more important than those I have listed. Please feel free to add thoughts, comments and personal experiences to this post to help educate us all so that we may prevent in the future more lives being lost.
If you would like further information the National Federation of Demolition Contractors have written guidance notes on the safe use of High Reach Demolition Rigs, as does the HSE.
author:Mark FCIOB, MIDE, AIExpE Managing Director - The Coleman Group - Specialist Demolition, Design, Engineering, Specialist Cutting, & Remediation