What is the Difference Between Turbidity and Total Suspended Solids

The main difference between turbidity and total suspended solids is that turbidity refers to the cloudiness or haziness of a liquid caused by the presence of suspended particles, while total suspended solids refer to the total concentration of solid particles that are suspended in water.

Turbidity and Total suspended solids (TSS) are two important parameters that help measure water’s clarity and quality. High turbidity and TSS levels can indicate pollution, sediment runoff, erosion, or inadequate treatment processes, all of which can have detrimental effects on aquatic ecosystems and human health. Therefore, accurate measurement and control of turbidity and TSS are essential for maintaining water quality standards and ensuring the sustainability of water resources.

Key Areas Covered

1. What is Turbidity  
     – Definition, Measurement, and Applications
2. What are Total Suspended Solids
     – Definition, Measurement, and Applications
3. Similarities Between Turbidity and Total Suspended Solids
     – Outline of Common Features
4. Difference Between Turbidity and Total Suspended Solids
    – Comparison of Key Differences

Key Terms

Turbidity, Total Suspended Solids, TSS

What is Turbidity

Turbidity refers to the cloudiness or haziness of a liquid caused by the presence of suspended particles. It is a standard parameter that helps assess water quality and clarity. Turbidity measurements encompass a broad range of particle sizes. Suspended particles can vary from large sediment particles to smaller clay particles, silt, organic matter, algae, and microscopic organisms. The presence of these particles in water causes light to scatter, resulting in reduced clarity.

When light passes through a turbid liquid, the suspended particles scatter and absorb light, causing it to deviate from its original path. This scattering of light gives the water its cloudy or hazy appearance. The degree of scattering depends on the size and concentration of the suspended particles.

Turbidity is typically measured using specialized instruments called turbidimeters or nephelometers. The measurement unit for turbidity is often expressed in Nephelometric Turbidity Units (NTU) or Formazin Turbidity Units (FTU). These units quantify the amount of light scattered by the suspended particles and provide a numerical value indicating the turbidity level.

Applications of Turbidity 

Turbidity is an indicator of the overall quality of water. High turbidity levels can indicate contamination or the presence of suspended particles that may affect the water’s aesthetic, physical, and chemical properties. Turbidity is often associated with factors such as sediment runoff, erosion, algal blooms, or industrial discharges.

Turbidity measurements play a crucial role in environmental monitoring programs. They help assess the impacts of human activities, such as construction, mining, or agricultural practices, on water bodies. Monitoring turbidity levels can aid in identifying potential sources of pollution, assessing the effectiveness of erosion control measures, and preserving aquatic ecosystems.

Moreover, turbidity is an essential parameter in water treatment processes. High turbidity can interfere with the efficiency of filtration and disinfection processes. Monitoring turbidity levels in drinking water sources allows water treatment plants to adjust their treatment processes and ensure the delivery of clean and safe drinking water to the public.

 What are Total Suspended Solids

Total Suspended Solids (TSS) refer to the concentration of solid particles suspended in water. It is an important parameter in assessing the quality and health of water bodies. TSS measurements include solid particles of varying sizes, including sediment, organic matter, plankton, algae, and other solids. These particles can range from large sand or silt particles to smaller clay particles and even microscopic organisms. The size of the particles affects their settling behavior and their impact on water quality.

The determination of TSS involves a filtration method. A known volume of water is passed through a filter with a specified pore size, typically 0.45 micrometers or 1.2 micrometers. The filter captures the suspended particles, while the filtrate is collected separately. The filter is then dried and weighed to determine the mass of the suspended solids. TSS is typically expressed in milligrams per liter (mg/L) or parts per million (ppm). These units represent the mass of the suspended solids per unit volume of water. TSS measurements provide a quantitative assessment of the concentration of solid particles in the water sample.

Application of TSS

TSS is an indicator of the overall water quality and can provide insights into the level of pollution and the presence of contaminants. High TSS levels can indicate sediment runoff, organic matter decomposition, industrial discharges, or agricultural practices. Monitoring TSS helps identify potential sources of pollution and assess the impact on aquatic ecosystems.

TSS measurements are very useful in environmental monitoring programs. They help assess the impacts of human activities on water bodies, such as construction projects, mining operations, or land development. Monitoring TSS levels over time allows for the evaluation of water quality trends, the identification of hotspots, and the development of targeted management strategies.

TSS measurements are essential in water treatment processes. High TSS levels can clog filters, reduce the efficiency of disinfection processes, and cause operational issues in treatment plants. Monitoring TSS in source water helps optimize treatment processes and ensures the delivery of safe and clean drinking water to the public.

Similarities Between Turbidity and Total Suspended Solids

• Both turbidity and TSS provide information about the presence and concentration of suspended particles in water.
• Both parameters are related to the clarity or transparency of water.
• Moreover, the measurement of turbidity and TSS use similar techniques.
• In addition, they help to assess water quality and detect potential pollution sources in environmental monitoring programs.

Difference Between Turbidity and Total Suspended Solids

Definition

Turbidity refers to the cloudiness or haziness of a liquid caused by the presence of suspended particles, while total suspended solids (TSS) refers to the concentration of solid particles that are suspended in water.

Methodology:

Turbidity measurements are based on the principle of light scattering. TSS measurements, on the other hand, involve filtering a water sample to remove suspended particles.

Particle Size Consideration

Moreover, turbidity measurement accounts for the overall effect of suspended particles on light scattering, regardless of their size. TSS, on the other hand, focuses on the quantification of the mass of solid particles that remain in suspension after filtration.

Conclusion

The main difference between turbidity and total suspended solids is that turbidity refers to the cloudiness or haziness of a liquid caused by the presence of suspended particles, while total suspended solids refer to the total concentration of solid particles that are suspended in water.

 Reference:

1. “Turbidity – An Overview.” Science Direct.
2. “Total Suspended Solid – An Overview.” Science Direct.

Image Courtesy:

1. “Turbidity” By user:Jbo166 – Own work (CC BY-SA 3.0) via Commons Wikimedia
2. “Water clarity metrics figure Turner 2022 Limnology and Oceanography Letters” By Jessica S. Turner – Own work (CC BY-SA 4.0) via Commons Wikimedia