Transportable Water Purifying Device Using Bio Sand Filtration and Ultraviolet Light Treatment with Android Application for Monitoring

This study presents an Arduino-based transportable solar-rechargeable water purification device using Biosand filtration and Ultraviolet Light treatment with Android connectivity provided for monitoring and maintenance. Biosand filtration is responsible for removing pathogens and eliminating physical parameters like turbidity, iron, color and odor. However, Ultraviolet Light treatment is added to the process for more efficient removal of biological contaminants. Water parameters such as pH and turbidity level are monitored real-time throughout the purification process in an application installed on an Android unit connected to the device via Bluetooth. The process continues until acceptable range of parameters for drinking water are met according to Philippine National Standards of Drinking Water (PNSDW). Accuracy of the device is determined by comparison of results with the parameters provided by PNSDW. Physical parameters like pH, turbidity, Total Dissolve Solids (TDS) and microbiological parameters such as Fecal Coliform, Total Coliform and Heterotrophic Plate Count (HPC) of the output water from the device are also tested by a water testing laboratory for verification of results. The device was proven to be efficient and has the capability to produce potable water

Investigations in to the Effect of Influent Total Organic Carbon Concentrations on Biosand Water Filtration Efficiencies and Implementation Implications in Honduras

This document is a compilation of three papers, made for publication, detailing the findings from research conducted in a laboratory and in Honduras regarding the implementation and monitoring of the household, point-of-use, water treatment technology known as intermittent slow sand filters (ISSF), also known as biosand filters (BSF). While laboratory results have shown biosand filters can provide a high degree of biological removal from contaminated water, field results can vary greatly. Three trials using six 1/30th scale volume filters and a full scale filter were conducted, varying total organic carbon (TOC) and biodegradable dissolved organic carbon (BDOC). Fecal coliform (FC) removals, nitrate concentrations, and sulfate concentrations were analyzed to better understand how aerobic and anaerobic conditions affect filtration efficiency. Higher organic loadings had a higher oxygen demand on the "schmutzdecke" layer of the sand filters. Filters with a standing head DO of 3mg/L or less had signs of the filters turning anaerobic, conditions unconducive to pathogen removal. Filters with TOC loadings higher than 20 mg/L and BDOC loadings higher than 10 mg/L can turn anaerobic, generating more anaerobic organisms than are removed. By working with communities around the Campana region of Honduras, wooden molds were developed for the construction BSFs. Entirely sourced from in-country materials and labor, a local production facility and foreman was established to provide the filters and clean water information to the surrounding communities. Rotary style sieves were developed to process the filtration medium, reducing the labor required per filter. Under the moniker of AguaSeis filters, the filters were sold for $25.00 USD with a material cost of$7.50 USD per filter. The concerted effort of having a sustained, local BSF production and adoption was carried out between March 2011 and January 2014. During that time, 46 filters were made in-country with 72% still in operation. An averaged removal rate of total coliforms, sampled from 27 filters, was found to be 91%.Civil & Environmental Engineerin