Emerald City Development

Project Details:

Owner: Kimberly Clark
General Contractor: Independence Excavating
Date of Work: January 2024 - April 2024
Engineer: Hixson Architecture Engineering 
Approximate Key Quantities:  Dynamic Compaction 8,367 Point(s)

 

Description:

In what was described as “historic development news” in Warren, Ohio, the Kimberly-Clark Company purchased 560 acres of the former RG Steel Plant site. The $9.9 million transaction paves the way for potential economic stimulus, along with vast employment opportunities in the region. The plant, which had produced steel for more than 100 years prior to closure in 2012, was eventually demolished. The land was later bought and cleaned up by the port authority.

 

Located two miles from the Warren City Center, the former mill site was earmarked for a proposed 750,000 sq-ft paper-product manufacturing facility by Kimberly-Clark – a company that produces items such as Cottonelle, Huggies, Kleenex, Depends and Scott paper towels.

 

The site consists of variable fill material composed of slag, debris, and contaminated soils. Pre-construction analysis predicted excessive settlement was highly likely without implementing a ground improvement program. Menard USA was contacted to provide the ground improvement – the selected technique was Dynamic Compaction. Dynamic compaction densifies existing soils to improve bearing capacity, while reducing the risk of differential settlement.

Ground Conditions:

The previously placed miscellaneous fills of slag and sand/gravel, ranged up to 28.5 ft below ground level. Beneath the undocumented fill, the native subsurface conditions can be described as sand with varying amounts of silt and sand before reaching rock at approximately 40-50 ft below surface level. Groundwater was encountered at depths ranging from 14-35 ft below ground surface.

Solution:

The depth of the slag fill material, the location of the water table and the risks associated with handling impacted materials, ruled out over-excavation as a possible solution. Installing ground improvement or deep foundations was also viewed as impractical due to the historic foundations, which would require extensive predrilling and removal of foundations within the footprint. Menard provided a more economical and practical solution of performing dynamic compaction to densify soils for the new building.

Menard implemented dynamic compaction for global support across the building footprint to homogenize the top 20 ft of fill material. Craters from the dynamic compaction were recorded between 1-3 ft deep. The dynamic compaction was predicted to improve the bearing capacity to 3,000 psf, which was verified with pre- and post- borings. Upon completion of the 8,367 dynamic compaction prints, 3 ft of additional fill, and two layers of geogrid, was placed above the working elevation and below the slab. The combination of dynamic compaction and geogrids reduced the risk of differential settlements..

Throughout construction, several obstructions were encountered. This included the existence of chambers, which were removed and backfilled. Another obstruction was (presumably) concrete structures below grade. In these areas, Menard eschewed dynamic compaction and recommended further investigation by the contractor.

With all challenges and constraints considered, Menard successfully preformed dynamic compaction to support a proposed 750,000 sq-ft manufacturing facility in Warren, OH.

Print this resource

Other Projects: