Water is a critical resource to the human race, yet half the planet’s population experiences water scarcity, and 780 million people do not have access to clean water filter year-round. For those with no other choice but to drink from contaminated water sources, they are at risk of contracting a broad range of diseases, most commonly diarrhoea, which the second largest life-taking for children under the age of five. Citizens existing in countryside areas of developing countries are primarily at risk, deficient access to basic water set-up and medical services. To deliver sparkling water to those in need involves ethnically suitable technology that is simple to construct and local made. Here comes the vital role of water treatment through the Kent RO Service. These systems capable of removing bacteria, dissolved impurities, and other contaminants from drinking water and built-in any community in the world.
To improve the quality of the filter, different studies and researches are being done in different parts of the world. One such study was done to develop economic and active ceramic water filters. In that study, Fieldwork was conducted in three factories. Pictorial clarifications of the production devices, testing conventions, and business practices were accepted visually and used to contrast the facility’s production and business practices.
Clay samples were collected and factories to be analyzed at the different research laborites. The ‘Atterberg limits’ (a measure of critical water contents) were determined on the samples, and X-ray diffraction analysis was used to determine the mineral makeup of the five samples and the percentage and type of clay in each. This study outlines the limits of a clay composition, specifically montmorillonite clay, which can be used to manufacture ceramic water filter service near me that makes a viable ceramic filter and compares the business prototypes of two groundwater manufacturers.
Importance of Water and Its Management
Water is a critical resource that is necessary to sustain life on earth. Near the end of 2016, the global population will have exceeded 7.4 billion people, growing at an annual rate of 10 million people per year. As the world’s population increases, the quantity of water available to each person decreases, as a result, conflicts over water are rising, and climate change is altering weather patterns and shifting the planet’s hydrological cycle. These shifts change the in-and outflow rates of freshwater to reservoirs such as glaciers, mountain snowpacks, and aquifers, which billions of people have relied on for thousands of years.
Decreases in water within a given region can lead to the physical scarcity of water, which creates competition between communities as well as agricultural, economic activities, and other businesses, all of whom are trying to meet their own needs. For at least one month of the year, 71% of the global population experiences water scarcity.
Currently, between 0.7 and 1.8 billion people do not have access to clean water, the majority of whom live in rural areas of developing countries. These areas are difficult to reach and tend to be far from infrastructures such as roads, water treatment plants, hospitals, and other support services.
Reaching fragmented populations in remote areas through conventional infrastructure is not cost-effective. Therefore, providing water to the 1.8 billion people who are in need requires solutions that can be implemented by locals without relying on large-scale density-dependent projects.
Local technologies that can be utilized in the home to retrieve and store water are known as Household Water Treatment and Storage (HWTS) techniques. A wide variety of technologies are classified under HWTS, each of which has strengths and weaknesses. Ceramic water filter pots are one of the leading technologies that are ideal for use by fragmented populations in locations where neither clean water sources nor adequate infrastructure is available.
This is because of their simplicity to operate and manufacture, making them a culturally appropriate technology like Kent RO service for rural residences of developing countries.
Ceramic water filter pots are clay pots that contain colloidal silver, a well-known antibacterial. The porous nature of the container, combined with the antibacterial properties of the silver nanoparticles, reduces the incidence of disease in the field and is preferred over comparable water filtration technologies. Furthermore, CWFPs are a low- tech and low-cost water filtration solution that offers significant protection to the user, can be made almost entirely from locally procured materials, and empowers users to look after themselves and their families.
The purpose of this study is to investigate the technologies, materials, and processes used in Nicaraguan CWFP factories, and to explore how variations in the physical properties of the clay and its mineralogy affect the performance of CWFPs. This study also seeks to understand and contrast the marketing and business strategies implemented by different CWFP factories in Nicaragua as well as one in Guatemala.
Waterborne Preventable Disease
The Global Risks Report, published in 2015, ranks water crises as the top devastating force against humanity and the eighth-most likely disaster to affect tolerance in the coming decades. An estimated 748 million people lack direct and consistent access to clean drinking water, relying instead on a mixture of UDW and IDW sources when available. Preventable diseases that depend on water as a vector to move from host to host were responsible for an estimated that 3.4 million deaths in 2014. The World Health Organization estimates that 173 million people are solely dependent on UDW sources for their drinking water, 90% of whom live in rural areas of developing countries. The resulting burden of disease decreases individuals’ capacity to work, shortens their lifespans, reduces their attendance to school/work, and increases the stress on available healthcare systems, which in most developing rural areas are sparse or non-existent.
