Assessment of segregated greywater in rural Indian homes

Greywater filtration (Image: Karen Blakeman; Flickr Commons - CC0 1.0 Universal)
Greywater filtration (Image: Karen Blakeman; Flickr Commons - CC0 1.0 Universal)
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Domestic wastewater, in particular greywater, significantly contributes to the composition of all wastewater. It is becoming more widely accepted that greywater, as opposed to blackwater, is a valuable resource rather than just waste. For sustainability, reuse, and zero liquid discharge, it is essential to distinguish between greywater and blackwater, and effective segregation and treatment at the source is required.

Income, population size, water accessibility, cultural issues, and cleaning supplies are all factors that affect the production of greywater. Studies on contaminants in residential wastewater other than typical pollutants and the effects of using household chemicals on the characteristics of greywater are few and far between. Reduced pollution loads in waterways, lower costs, lower water bills, and less infrastructure need all result from recycling and reusing greywater.

The study ‘Characterization of segregated greywater from rural Indian households: An instrumental case study’ by Steffi Joseph Perumpully et al., was published in the journal Total Environment Research Themes. The study's main focus is on describing segregated grey wastewater (bathroom, laundry, and kitchen) from diverse rural families and based on the socio-economic classes who live in the rural area of Karunya Nagar, Coimbatore.

Public opposition to greywater reuse, worries about the quality of treated water, and cost considerations are some of the socioeconomic barriers to greywater reuse and recycling. In order to reduce water consumption and increase wastewater recovery, the study emphasises the need for an appropriate wastewater treatment process that takes socioeconomic factors into account. A brief discussion of global water recycling and reuse practices is done with a focus on developed nations and the rising significance of these.

The topic then shifts to the critical need to promote wastewater recycling, particularly in developing nations like India. The introduction emphasises the need for a thorough characterisation of greywater from various domestic sources in order to create zero liquid discharge (ZLD) systems that are both effective and sustainable. The removal of nutrients from wastewater using an environmentally friendly process is called anaerobic ammonium oxidation (ANAMMOX).

The study reviews various research methodologies and technologies related to wastewater treatment, including models for urban stormwater and sewage management, intelligent human-machine interfaces, regression modeling for stormwater evaluation, cluster analysis for assessing water quality, and so forth. It is acknowledged that characterising greywater from various sources, particularly in rural areas, is essential before thinking about recycling and reuse.

There is a lack of literature on the characterisation of segregated household greywater in rural Indian households. The study's objectives include the analysis of greywater quality from various income-based household classifications. The study aims to contribute to the design of closed-loop treatment technologies with zero liquid discharge at various household levels, recognising potential limitations in implementing such systems in rural Indian households with diverse socio-economic groups. It emphasises the need for statistical analysis to assess variations in greywater impurities among different household classes.

The threat to human health posed by emerging contaminants is serious. The study concentrates on qualitative and quantitative evaluations of emerging pollutants from several rural Indian household classes using gas chromatography mass spectroscopy (GC–MS) and high-performance liquid chromatography (HPLC).

The study was carried out in Karunya Nagar, Coimbatore, Tamil Nadu, with a particular emphasis on samples of greywater taken from residences and hostels. Samples were taken from bathrooms, kitchens, and laundries, with households chosen based on socioeconomic groups. Twelve households, representing the upper, upper-middle, middle, and lower classes, were selected.

Evaluation of greywater's physical, chemical, and organic parameters was part of the analytical process. The physical parameters included turbidity, solids, pH, and EC. Total hardness, magnesium hardness, calcium hardness, magnesium, dissolved oxygen (DO), and chlorides were the chemical parameters. Using the Winklers method, organics, more specifically biochemical oxygen demand (BOD), were calculated.

The study emphasises both physical and chemical parameters in a particular residential area and offers a thorough understanding of the sampling, characterisation, and analysis of greywater. It offers a thorough examination of greywater's characteristics, covering its sources, daily activities, water quality, distribution methods, and socioeconomic standing. It makes a distinction between rural households and households belonging to socioeconomic groups, including hostels. The exploration of various physical and chemical parameters reveals the variety of greywater across various sources.

Greywater characteristics: The study emphasises the impact of variables like water usage, laundry techniques, and dishwashing procedures on the volume and characteristics of greywater. It highlights the importance of washing machines in households belonging to socioeconomic groups as opposed to manual washing in rural areas. Greywater production and water usage are directly related. Dishwashing frequency is noted to be lower in rural areas due to the need to collect water from communal points.

Physical and chemical parameters: A range of physical and chemical parameters, such as pH, electrical conductivity (EC), turbidity, and different dissolved and suspended solids, are covered by the analysis. Significant variations are seen between men's and women's hostels, rural and socioeconomic group households, and hostels. The difference in pH is explained by the different cleaning agents used; laundry wastewater has a higher pH than other types of wastewater. The electrical conductivity values show variations in anion and cation concentrations, which may have an impact on the health of the soil and plants.

The presence of particles is indicated by turbidity values, which are particularly high in rural households' kitchen wastewater because of food particulates. The majority of the total solids in kitchen wastewater come from food-related materials. Numerous elements, including calcium, magnesium, and chloride, have different concentrations in various sources and types of homes. Emphasis is placed on the effect of water supply quality on pH levels.

The analysis uses the ANOVA test to compare means across various categories, which confirms statistical significance in every instance. This emphasises how different parameters can be found in rural households and socioeconomic classes across different sources.

BOD and organics: The study investigates the concentration of biological oxygen demand (BOD), or organics, in various greywater sources. Kitchen wastewater has higher BOD values because of the organic material in food and oil particles. According to the study, differences in BOD between men's and women's hostels are related to the use of different personal care and cosmetic products.

High-Performance Liquid Chromatography (HPLC) and Gas Chromatography-Mass Spectrometry (GC-MS) analyses give information about the composition and polarity of dissolved hydrophobic and hydrophilic substances. According to these analyses, a number of substances are present, including urea derivatives, amino derivatives, aliphatic carboxylic acids, and aliphatic alcohols.

The study concludes by providing a thorough examination of the characteristics of greywater and highlighting the various factors that have an impact on its composition. This study will be helpful in creating a sustainable, affordable treatment system that will enable homeowners to reuse and recycle greywater safely produced from a variety of sources.

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Post By: Amita Bhaduri
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