Browse Topic: Water treatment
Arsenic and ammonia in ground and surface waters pose significant health risks globally, especially for remote areas where access to safe drinking water is a concern for U.S. military personnel. Current removal materials and methods lack contaminant specificity. This study developed adsorptive resins and membranes specifically targeting arsenate and ammonia removal using molecularly imprinted acrylate polymers supported on graphitic carbon nitride. These materials showed comparable arsenate removal capacity to commercial resins. Higher ammonia removal capacity but lower selectivity was demonstrated by these materials in comparison to commercial resins. This research aims to enhance water treatment materials for ensuring clean drinking water access in remote military locations
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NASA Kennedy Space Center has developed a water remediation treatment system that utilizes an affordable media that is highly selective for ammonia, allowing large concentrations of ammonia in wastewater to be reduced to levels less than 1 ppm. Following treatment, the media is regenerated for reuse in the system and ammonia is captured as a by-product
A commonplace chemical used in water treatment facilities has been repurposed for large-scale energy storage in a new battery design by researchers at the Department of Energy’s Pacific Northwest National Laboratory. The design provides a pathway to a safe, economical, water-based, flow battery made with Earth-abundant materials. It provides another pathway in the quest to incorporate intermittent energy sources such as wind and solar energy into the nation’s electric grid
Recent experiments by a team from the West Virginia University focused on how a weightless microgravity environment affects 3D printing using titania foam, a material with potential applications ranging from UV blocking to water purification. ACS Applied Materials and Interfaces published their findings
Billions of people around the world lack access to clean, drinkable water. A research team led by engineers at The University of Texas at Austin has developed a new water filtration system using locally sourced materials for members of the Navajo Nation in the Southwest
This SAE Aerospace Information Report (AIR) describes the performance of plating’s and coatings for landing gear that potentially provide environmental compliance benefits versus the current baseline processes. The hazardous systems addressed in this version of the document include cadmium plating, chromated primers, and high VOC (volatile organic compounds) topcoats. The AIR applies to landing gear structures and mechanisms for all types of civil and military aircraft. The potential replacements apply to both Original Equipment Manufacturer (OEM) hardware and overhaul of in-service landing gears
Scientists have created a cybersecurity technology called Shadow Figment that is designed to lure hackers into an artificial world, then stop them from doing damage by feeding them illusory tidbits of success. The aim is to sequester bad actors by captivating them with an attractive, but imaginary world. The technology is aimed at protecting physical targets — infrastructure such as buildings, the electric grid, water and sewage systems, and pipelines
The interiors of nonflowering trees, such as pine and ginkgo, contain sapwood lined with straw-like conduits known as xylem that draw water up through a tree’s trunk and branches. Xylem conduits are interconnected via thin membranes that act as natural sieves, filtering out bubbles from water and sap
Among the many avenues that viruses can use to infect humans, drinking water may pose only a tiny risk for spreading certain viruses like the novel coronavirus. But in cases where there is unauthorized wastewater disposal or other events of inadvertent mixing of wastewater with water sources, the possibility of transmission through drinking water remains unknown
This column presents technologies that have applications in commercial areas, possibly creating the products of tomorrow. To learn more about each technology, see the contact information provided for that innovation
Researchers have integrated water purification technology into a new proof-of-concept design for a sea water electrolyzer that uses an electric current to split apart the hydrogen and oxygen in water molecules. This new method for “sea water splitting” could make it easier to turn wind and solar energy into a storable and portable fuel
The present study is focused on the significance of solar desalination heat storage method. The Solar energy is a prime source of energy existing directly or indirectly from the nature. The primary drawback of solar energy, which is existing in hours only. Thermal storage devices can overcome this problem as they can store the energy in daylight that can be utilized in off sunshine hours. The purpose of this work is to evaluate the increase in productivity of the solar desalination by using phase change material and combination of PCM with TiO2 (Nano particles). The present work is focused on performance of solar water desalination using Phase Change Materials along with TiO2 Nanoparticles. The Titanium Oxide Nanoparticles were synthesized by Sol-Gel method. The Titanium oxide Nano particles were characterized by XRD, SEM, EDS, and FTIR etc. In this experiment paraffin 34-carbons is used as phase change materials and Titanium Oxide Nanoparticles used for energy storage materials. The
Researchers have developed a tiny plastic robot, made of responsive polymers, that moves under the influence of light and magnetism. In the future, this wireless aquatic polyp should be able to attract and capture contaminant particles from the surrounding liquid or pick up and transport cells for analysis in diagnostic devices
Lenan Zhang and his team at MIT have developed a mathematical model for optimizing the performance of a small, economical, highly efficient device that can, using only the sun for its energy input
The Department of the Navy (DON) has major installations located around the world. Twenty-two main installations operate outside the continental United States (OCONUS) and rely on on-base water processing facilities. These facilities serve a total population of 71,000 military and civilian personnel, and the water plants have a total production capacity of 15.7 million gallons per day
The Pre-Treatment Solution for Water Recovery technology was developed by NASA Johnson Space Center innovators to increase the amount of potable water recovered from the International Space Station’s urine processor assembly system. The solution increased the water recovery rate in the ISS distiller from 75 to 90 percent, doubled the volume of feed processed per cycle, reduced the volume of brine by half, and eliminated the formation of precipitate up to 90% water recovery
This document will focus on the language used to describe batteries at the end of battery or vehicle life as batteries are transitioned to the recycler, dismantler, or other third party. This document also provides a compilation of current recycling technologies and flow sheets, and their application to different battery chemistries at the end of battery life. At the time of document authorship, the technical information cited is most applicable to Li-ion battery type rechargeable energy storage systems (RESS), but the language used is not to be limited by chemistry of the battery systems and is generally applicable to other RESS
This document provides information and guidance material to assist in assessing the need for and feasibility of developing deicing facilities, the planning (size and location) and design of deicing facilities, and assessing environmental considerations and operational considerations associated with de-icing facilities. The document presents relevant information necessary to define the need for a deicing facility and factors influencing its size, location, and operation. The determination of the need for deicing facilities rests with Airports. Although this document intends to provide information to airport operator and deicing facility planner/designer, all stakeholders, including deicing service providers, should be involved in the development process
Scientists at NASA's Glenn Research Center have developed a unique water purification method that can be used for water recycling or point-of-use applications. Originally developed as a means to recycle water in space, this technology has applications in industrial water treatment, water recycling, and water purification for military bases, disaster sites, and regions without easy access to clean water. Relying on only electrical energy, this technology uses plasma-generated reactive species to decompose organic contaminants, ranging from submicron particles to water soluble organics like glycol, ethanol, and industrial dyes
A method was developed that allows water recycling, air treatment, thermal control, and solid residuals treatment and recycle to be removed from the usable habitat volume and placed in the walls of a radiation-shielding water wall. This design also provides a mechanism to recover and reuse water treatment (solid) residuals to strengthen the habitat shell
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