Summary

The principal objective of wastewater treatment is generally to allow human and industrial effluents to be disposed of without danger to human health or unacceptable damage to the natural environment. Typical processes that are investigated and applied to wastewater treatment can be the following: biological, adsorption, flocculation, oxidation, membranes, filtration, etc. This entry collection features information about many processes of wastewater treatment and many other related issues such as reuse, cost, fluid aspects, plants, etc.

Expand All
Entries
Topic Review
Virus Monitoring Strategies for Wastewater Reuse
Wastewater reclamation and reuse have the potential to supplement water supplies, offering resiliency in times of drought and helping to meet increased water demands associated with population growth. Non-potable water reuse represents the largest potential reuse market. Yet, economic constraints for new water reuse infrastructure and safety concerns due to microbial water quality, especially viral pathogen exposure, limit the widespread implementation of water reuse. Cost-effective, real-time methods to measure or indicate the viral quality of recycled water would do much to instill greater confidence in the practice.  One of the greatest challenges of water-quality monitoring is that pathogens (including viruses as well as bacteria and protozoa) are often present at concentrations high enough to present disease risks but too low for direct detection. As a result, a variety of surrogate microorganisms are used as indicators of microbial water quality. 
  • 635
  • 22 Apr 2022
Topic Review
Anoxygenic Photosynthesis in Photolithotrophic Sulfur Bacteria
Hydrogen sulfide is a toxic compound that can affect various groups of water microorganisms. Photolithotrophic sulfur bacteria including Chromatiaceae and Chlorobiaceae are able to convert inorganic substrate (hydrogen sulfide and carbon dioxide) into organic matter deriving energy from photosynthesis. This process takes place in the absence of molecular oxygen and is referred to as anoxygenic photosynthesis, in which exogenous electron donors are needed. These donors may be reduced sulfur compounds such as hydrogen sulfide. 
  • 712
  • 22 Apr 2022
Topic Review
Microbial Electrolysis Cell as a Diverse Technology
Microbial electrolysis cells (MECs) have been explored for various applications, including the removal of industrial pollutants, wastewater treatment chemical synthesis, and biosensing. On the other hand, MEC technology is still in its early stages and faces significant obstacles regarding practical large-scale implementations. MECs are used for energy generation and hydrogen peroxide, methane, hydrogen/biohydrogen production, and pollutant removal. 
  • 733
  • 19 Apr 2022
Topic Review
Phosphorus Recovery from Sewage Sludge Ash
Phosphorus is an essential and limited element that cannot be replaced by any other. Phosphorus deposits in the world are rapidly depleting, so methods of recovering phosphorus from alternative sources and using it as a fertilizer in agriculture are becoming increasingly popular. Struvite from sewage sludge ash contains phosphorus, and also a significant amount of nitrogen and magnesium. It is considered an effective slow-release fertilizer that can be successfully applied to agricultural, vegetable, and ornamental crops. The slower leaching of nutrients and high fertilizer quality, and high phosphorus content can make struvite an environmentally friendly fertilizer. However, its production is not yet sustainable. The cradle-to-cradle (C2C) concept has made it possible to highlight the so-called critical points in the production of such fertilizer. Limitations are environmental  (concerns about heavy metals content in sewage sludge ash), legal (standard testing, product certification, quality control), economic (cost of energy, supply-chain), legal aspects (still not implemented as a mineral fertilizer under general EU regulations) and looses during P fertilizer production. 
  • 696
  • 18 Apr 2022
Topic Review
Gas Hydrate Technology
Innovating methods for treating industrial wastewater containing heavy metals frequently incorporate toxicity-reduction technologies to keep up with regulatory requirements. This research reviews the latest advances, benefits, opportunities and drawbacks of several heavy metal removal treatment systems for industrial wastewater in detail. The conventional physicochemical techniques used in heavy metal removal processes with their advantages and limitations are evaluated. A particular focus is given to innovative gas hydrate-based separation of heavy metals from industrial effluent with their comparison, advantages and limitations in the direction of commercialization as well as prospective remedies. Clathrate hydrate-based removal is a potential technology for the treatment of metal-contaminated wastewater. In this research, a complete assessment of the literature is addressed based on removal efficiency, enrichment factor and water recovery, utilizing the gas hydrate approach. It is shown that gas hydrate-based treatment technology may be the way of the future for water management purposes, as the industrial treated water may be utilized for process industries, watering, irrigation and be safe to drink. 
  • 1.1K
  • 15 Apr 2022
Topic Review
Palm Oil Mill Effluent
Palm oil mill effluent (POME) requires treatment prior to discharge to the environment. Biological processing technology is highly preferable due to its advantages of environmentally friendliness, cost effectiveness, and practicality. These methods utilized various designs and modifications of bioreactors fostering effective fermentation technology in the presence of fungi, bacteria, microalgae, and a consortium of microorganisms.
  • 1.9K
  • 14 Apr 2022
Topic Review
Reuse of Water Contaminated by Microplastics
Water treatment generally does not specifically address the removal of microplastics (MPs). Nevertheless, treatment plants process water effectively, and the number of synthetic microparticles in effluents is usually very low. Still, discharge volumes from water-treatment plants are often elevated (reaching around 10^8 L/day), leading to the daily discharge of a substantial number of MPs and microfibers. Furthermore, MPs accumulate in the primary and secondary sludge, which in the end results in another environmental problem as they are currently used to amend soils, both for cultivation and forestry, leading to their dispersion. Something similar occurs with the treatment of water intended for human consumption, which has a much lower but still significant number of MPs. 
  • 580
  • 18 Apr 2022
Topic Review
Tailoring Nanoadsorbent Surfaces for Recycling of LTM
A series of adsorbents were tailored for selective extraction of rare earth elements (REE) and late transition metals (LTM) via grafting of ligands bearing specific N- and S-donor functions. All obtained adsorbents showed relatively quick uptake kinetics and high adsorption capacity 0.5 to 1.8 mmol/g, depending on the function and the target metal ion. The adsorption equilibrium data analyzed and fitted well to Langmuir isotherm model revealing monolayer adsorption process on homogeneously functionalized silica nanoparticles (NPs). Most of the employed ligands demonstrated higher affinity towards LTM compared to REE, related to the nature of the functional groups and their arrangement on the surface of nanoadsorbent.
  • 389
  • 11 Apr 2022
Topic Review
Fe-TiO2 Photocatalysts on Porous Platforms for Water Purification
Polyethylene glycol-modified titanium dioxide (PEG-modified TiO2) nanopowders were prepared using a fast solvothermal method under microwave irradiation, and without any further calcination processes. These nanopowders were further impregnated on porous polymeric platforms by drop-casting. The effect of adding iron with different molar ratios (1, 2, and 5%) of iron precursor was investigated. The approach developed in this work originated novel functionalized photocatalytic platforms, which were revealed to be promising for the removal of organic dyes from wastewater.
  • 580
  • 11 Apr 2022
Topic Review
Electrocoagulation Process on Agro-Based Industrial Wastewater
The electrocoagulation process can be used for agro-based wastewater treatment. The performance of the electrocoagulation process is based on several parameters, including the electrode materials, electrolysis time, current density, and electrolyte support. Agro-based industrial wastewater (AIW) treatment processes depend on the characteristics of the wastewater. The removal of organic content from various sources of AIW can reach up to more than 80%. 
  • 1.2K
  • 28 Mar 2022
  • Page
  • of
  • 15

Featured Entry Collections

>>