One of the key principles of employing superabsorbent polymer (SAP) technology for the solidification of dredged sediments, wastewater treatment sludge, or other liquid-bearing waste materials, is the drastic time savings that can be realized with SAPs when compared to traditional, commodity drying products like sawdust or Portland cement.
Two core features of SAPs are utilized to minimize time spent on solidification of liquid-bearing waste:
1) Rapid hydration speed
2) Unrivaled liquid absorption capacity
One of the basic functions of superabsorbent technology is the rapid absorption of water immediately upon contact. In sludge or sediment waste, SAPs draw water out of the pore spaces of the waste and transform the liquid into a solid gel, which traps the water indefinitely.
The result is a dry stackable solid with no free liquids, that is suitable for loading in trucks, transportation, and disposal in landfills. For reference, a 20-yard roll-off box, approximately half full of liquid waste, can be solidified with SAPs in 15-20 minutes in most situations.
For comparison, pozzolanic and cementitious materials (cement, lime, LKD, etc) can take 24 hours or more to cure before the free liquid has been consumed and the liquid waste is suitable for hauling and disposal.
Furthermore, the presence of organics and other chemical species in the waste material can result in extended cure times, higher than expected amendment rates, and dangerous off-gassing (i.e. hydrogen sulfide gas) when using calcium-based cementitious products.
Related Article: Coal Ash (CCR) Stabilization with Superabsorbents
The superior absorption capacity of SAPs (200-300 times their weight in DI water) translates into time savings on a solidification project by allowing a waste treatment contractor to solidify more waste with much less material, when compared to competing products.
SAPs are typically effective at achieving full solidification at a dosage rate of 0.5% to 1.0% of the weight of the waste material. For comparison, sawdust, and other cheap bulking agents, are applied at rates of 50% to 200% of the volume of the waste. Cementitious material dosage rates can range from ~5% to above 25%, depending on the contents of the waste and the weather.
To further explain how absorption capacity contributes to time savings during blending operations at a project site, consider the following example:
A dredging site in a downtown urban area produces 20,000 cubic yards of wet sediments that are to be dried and transported to a landfill for final disposal. The contractor is faced with a decision: use low-cost sawdust from a local facility, portland cement, or superabsorbent polymer.
While the purchase price of sawdust and cement is attractive at first, the contractor decides to evaluate the total impact that the selected drying agent will have on the project. After evaluating the required dosage rates of each product, the contractor realizes that the sawdust and the cement will require nearly 20 times more drying amendment compared to SAP.
The much higher volume of sawdust and cement that would be required would impact the project timeline in the following areas:
Option 1: Sawdust
Amount of sawdust required (100% dosing rate): 20,000 cubic yards (1,890 tons)
Option 2: Portland cement
Amount of Portland cement required (8% dosing rate): 1,600 tons
Option 3: SAP
Amount of SAP required (0.5% dosing rate): 100 tons
Related Article: Reducing Sludge Disposal Costs with SAPs
SAPs are designed to absorb tremendous volumes of fluid very quickly. The efficiency and speed of liquid absorption with SAPs help environmental waste management professionals manage complex construction schedules and minimize risk.
To learn more about why so many contractors and engineers choose SAPs for solidifying liquid waste, please contact Whit Rawls at wrawls@chasecorp.com or fill out the form below!