Brad Rynearson, Project Supervisor with TPI Utility Construction (TPI) said: “Due to the nature of the break, lining was not an option.”
With project phases being held up by this break, and students roaming the campus, the pipe had to be replaced promptly, safely and most of all, within budget.
“The lateral was only 75 feet long, but because of the depth, the shoring alone was estimated at more than $US50,000 if the job had been open cut,” said Mr Rynearson. “This quickly moved the mood toward a different solution.”
There were only two methods that were possible on this job site, open cut and pipe bursting. It soon became obvious that an open cut replacement of 75 feet of pipe was an expensive proposition.Article continues below…
Enter the pipe bursting method
For more than 20 years, the pipe bursting method has experienced exceptional growth in use worldwide. Developed by British Gas, pipe bursting is a method whereby the existing pipe is fractured by applying outward pressure inside the pipe, expanding the annulus and pushing the cracked pipe into the surrounding soil while at the same time pulling in new pipe. This technology was born out of the necessity in the UK to replace aged gas mains in inner cities and neighbourhoods where building and traffic congestion made open cut replacement logistically difficult and cost prohibitive. Over time, the method was adapted by the water and sewer industries to replace mains as old if not older than the gas mains being replaced.
The potential impact on social, financial and safety issues were major factors in deciding to use the pipe bursting method.
“A pipe bursting job is usually considered high profile when it contains long replacement lengths, large diameter pipe or multiple up-sizes,” said Nate Hrabosky, Midwest Territory Manager at HammerHead.
“Vary rarely is a 65 foot, 12 on 12 sewer main pipe burst considered a high profile job. However, the job completed at Purdue University, home of the Boilermakers, is a notable exception.”
According to Mr Rynearson, Purdue University saved an estimated 75 per cent over open cut costs and the job was completed in three days versus three weeks.
Executing the job
“I contacted Gary Nirich of Vermeer Indiana who was instrumental in assisting TPI with equipment selection. After a short meeting, we decided that the best equipment for this particular job was to use an 8 inch HammerHead Mole® pipe bursting tool, 12 inch burst head and the HydroGuide® HG12 winch,” said Mr Rynearson.
By using an 8 inch tool with 12 inch bursting head, they were able to utilise the Earth Tool Company patented manhole exit method which saved an excavation.
The most challenging aspects of this project were the tight working spaces and assuring the safety of the students walking the grounds.
“The pipe and the equipment had to be craned in and out to even get to site,” said Mr Rynearson.
It was important to execute the job quickly as the University was not too keen about having a 15 foot deep hole in close proximity to the student’s walking path.
“Having the proper equipment helped us execute the project quickly.”
The HydroGuide HG12 winch has a hydraulic deployable boom that only took 15 minutes to set up. After that, it was only another 20 minutes of actual pipe bursting time to get the 65 feet of pipe in the ground.
There is no doubt that Purdue University was happy with the results. They saved nearly 75 per cent over open cut costs, the expansion project was put back on schedule and much of the existing landscape was preserved.
“I want to thank all those involved from Vermeer and HammerHead for helping us prove to Purdue University and others that Trenchless Technology has a place in the utility construction field. It saves time and money,” said Mr Rynearson.
“There is no doubt that pipe bursting was the right method for the job, never go to a gun fight with a knife.”
For more information on pipe bursting, contact Jeff Wage of HammerHead at email@example.com or visit www.hammerheadmole.com