What is Sustainable Sludge Management?

🕑 Reading time: 1 minute

Sustainable sludge treatment processes focus on the elimination of risks to the environment and human health occurring from sludge, along with the effective use of valuable compounds in the sludge.

Sludge is the final residue that accumulates in the sewage treatment plants or wastewater treatment processes. It can be in solid, semisolid, or slurry residual forms.

The sewage sludge produced by the municipal wastewater treatment plants (WWTPs) is a serious problem due to its environmental risks and high treatment cost. The sludge handling and processing cost almost 50% of the total operating costs of wastewater. 

Sustainable sludge management develops and promotes innovative systems to maximize the recovery of useful materials or energy from sludge sustainably.

This article discusses some important strategies followed for the sustainable management of sludge.

How to Manage Sludge Sustainably?

Some of the conventional sludge treatment and recycling options, like direct use on agriculture and other land uses, are restricted due to the environmental and health risks they impart. Hence, a  sustainable sludge management procedure should:

1. Assess the processes capable of maximizing the recycle/recovery benefits through low-energy impact systems.
2. Develop innovative methods and operational system that fit the local circumstances, including economy, climate, geography, etc.

To understand the potential methods for sustainable management of the sludge, it is necessary to briefly assess the sludge's composition. The rough composition of sludge can be categorized into five groups:

1. Non-toxic organic compounds
2. Toxic pollutants - heavy metals, PCBs, PAHs, dioxins, pesticides, etc.
3. Pathogens and other microbial pollutants
4. Inorganic compounds
5. Water

Among these, organic carbon, phosphorous, and nitrogen are valuable compounds that are recovered and reused in sustainable treatment. In some cases, the water is also removed for the ease of transportation, disposal, or efficient treatment of sludge. 

Six basic treatment options that can be followed as an initial step to sustainably manage the sludge problem are:

1. Improving the quality of sludge
2. Utilizing valuable compounds present in sludge. e.g., organic carbon compounds, non-toxic inorganic substances, etc.
3. Reducing the total volume of sludge
4. Recovery and reuse of phosphates from sludge
5. Using a combination of different treatment approaches. 

1. Improvement of the Quality of Sludge

This approach primarily focuses on improving the quality of the sludge by removing toxic substances. For example, if the sludge contains a high concentration of heavy metals, the below approaches are followed:

• Colloidal and suspended particles from the influent are removed during the first treatment process, as most of the heavy metals are bounded to the particles. The next step is precipitation, where an effluent free of heavy metals is obtained. Finally, the final sludge is treated biologically to obtain higher quality sludge, i.e., free of heavy metals.
• For heavily polluted sludges with heavy metals, chemical leaching using inorganic and organic acids can be employed.

These are some of the methods employed to improve sludge quality with respect to heavy metals. However, if the sludge is polluted with pathogens, other extractions and selective oxidation processes are used.

2. Benefits of Organic Carbon and Inorganic Compounds

Some of the relevant options that are available for the use of organic carbon and inorganic compounds are:

• Biogas can be produced as an energy source during the pretreatment of sludge. But, this approach does not convert a substantial part of the organic carbon compound to biogas.
• Sludge can be used to produce fuel or feedstock in the form of diesel, oil, or gas. The main aspect governing this approach is the type and quality of the products and their market value.
• Sludge can be directly used as an energy source—for example, production of Portland cement, lightweight aggregates, slags, and bricks.
• Production of volatile acids such as formic acid, acetic acid, and propionic acids, achieved by microbiological processes or thermal processes like wet air oxidation and hydrothermal treatment.

Many other production processes are still developing to effectively convert the compounds to usable energy.

3. Reduction of Total Amount of Sludge

Many processes are followed to reduce the amount of sludge. The methods mentioned earlier to remove the heavy metals, pathogens, and utilization of organic/inorganic compounds in sludge do reduce the total amount of sludge. In addition to these, the other methods followed are:

• The amount of sludge produced is reduced by using higher organisms such as protozoa and metazoa. 
• An activated sludge system is used to reduce the amount of sludge, but it demands high energy.
• Aerobic and anaerobic composting and vermicomposting are used on a practical scale to reduce the volume of sludge. The final product can also be used as a soil improver.
• Mechanical dewatering or sludge drying is another method to reduce the sludge volume.

4. Recovery of Phosphates (P) from Sludge

A P-recovery step is a general approach planned to recover valuable products from the sludge in combination with the removal of heavy metals. The procedure improves the quality of the sludge or uses it as an energy resource. 

5. Change in Treatment Strategy of Municipal Wastewater

Sludge is also managed effectively by changing the treatment strategy of municipal wastewater. The first strategy is centralized treatment (Figure-2), and the second is decentralized sanitation.

The centralized treatment involves physical or chemical treatment of the wastewater, where the final sludge contains less organic compounds, nitrogen, and phosphorous-containing compounds. But the second option of decentralized sanitation recovers maximum valuable products for reuse. But compared to centralized treatment of sludge, it demands intensive infrastructure.

6. Combinations of Treatment Systems

Several sludge treatment approaches are combined and put into practice to manage sludge effectively—for example, co-digestion of sludge and other organic waste to increase biogas production.

Factors Affecting Sustainable Sludge Management

The process that is optimal for sludge treatment and management is dependent on certain circumstances:

1. Technical feasibility and reliability of the process
2. Economic feasibility and cost acceptance
3. Environmental sustainability
4. Infrastructure and logistics aspects
5. Marketing aspects of the valuable products
6. Environmental policy and legislation of the region
7. Public acceptance of the chosen approach of sludge management

FAQs

Read More

What is Advanced Wastewater Treatment System?

What are the Pre-Treatment Components of On-Site Wastewater Treatment System?