Arsenic Facts

Arsenic (As) is a naturally occurring contaminant found in many ground waters. It generally occurs in two forms (valences or oxidation states): pentavalent arsenic (also known as As(V), As(+5), or arsenate) and trivalent arsenic (also known as As(III), As(+3), or arsenite). In natural ground water, arsenic may exist as trivalent arsenic, pentavalent arsenic, or a combination of both. Although both forms of arsenic are potentially harmful to human health, trivalent arsenic is considered more harmful than pentavalent arsenic. More information about arsenic and its toxicity can be found on the U.S. Environmental Protection Agency website at: http://www.epa.gov/safewater/arsenic.html.

This system is designed to remove only pentavalent arsenic. This treatment system does not provide a feature for conversion of trivalent arsenic to pentavalent arsenic. The system may remove some trivalent arsenic; however, it has not been evaluated for its ability to remove trivalent arsenic.

Trivalent arsenic is generally more difficult to remove from drinking water than pentavalent arsenic. Trivalent arsenic can be converted to pentavalent arsenic in the presence of an effective oxidant such as free chlorine. The arsenic in water containing detectable free chlorine or that has been treated with another effective oxidant will be in the pentavalent arsenic form. Treatment with chloramine (combined chlorine) is not sufficient to ensure complete conversion of trivalent arsenic to pentavalent arsenic.

Consumers using public water supplies can contact their utility to verify whether free chlorine treatment chemicals are being used. Private water supplies and waters that do not have detectable free chlorine residuals should be analyzed to determine the form(s) of arsenic present and the potential need for oxidation of trivalent arsenic to pentavalent arsenic.

Arsenic does not generally impart color, taste or smell to water, therefore, it can only be detected by a chemical analytical test. Public water supplies are required to monitor treated water for total arsenic (trivalent arsenic plus pentavalent arsenic) and the results are available to the public from the utility. Consumers using private water sources will need to make arrangements for testing. A total arsenic test usually costs about $15-$30 and it is recommended the test be conducted by a certified laboratory. Local health departments or environmental protection agencies can help provide consumers with a list of certified laboratories. Some laboratories may also be able to analyze specifically for (speciate) the two forms of arsenic present in a water sample if requested.

This treatment system was tested under laboratory conditions as defined in NSF/ANSI 58 Reverse Osmosis Drinking Water Treatment Systems and was found to reduce 0.30 mg/L influent arsenic challenge concentration in the test water to less than 0.010 mg/L, under standard testing conditions. Actual performance of the system may vary depending on specific water quality conditions at the consumer’s installation. Following installation of this system, the consumer should have the treated water tested for total arsenic to verify arsenic reduction is being achieved and the system is functioning properly.

The pentavalent arsenic removal component of this system (the R.O. membrane) must be replaced at the end of its useful life. Typical membrane life expectancy is three years. Local conditions may dictate more frequent changes. For replacement parts contact the local dealer who supplied the unit or contact the factory for the dealer nearest you.

Form No. S1473-HB Updated 07/25/07

HELLENBRAND, INC.

404 Moravian Valley Road

Waunakee, Wisconsin 53597-0187

Phone (608) 849-3050

Fax (608) 849-7398

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Millennium Enterprises MRO-35 manual Arsenic Facts

MRO-35 specifications

Millennium Enterprises has gained significant attention with its recent release, the MRO-35, a sophisticated piece of technology designed to meet the needs of various industries. This multi-role unmanned aerial vehicle (UAV) has been engineered with advanced features and technologies that enhance operational efficiency and versatility.

One of the standout characteristics of the MRO-35 is its impressive flight endurance. Powered by a state-of-the-art battery system, the MRO-35 can stay aloft for up to 10 hours, allowing for extended surveillance, reconnaissance, and data collection missions. This capability makes it an ideal choice for sectors such as agriculture, environmental monitoring, and logistics.

The MRO-35 is equipped with an array of high-resolution cameras and sensors, including electro-optical and infrared imaging systems. These technologies enable real-time imaging and thermal analysis, providing users with critical intelligence and situational awareness. The versatile sensor suite also includes multispectral capabilities, facilitating precision agriculture and support for search and rescue operations.

Another key feature of the MRO-35 is its modular design. This allows users to customize the UAV with various payload options, making it adaptable to specific mission requirements. Whether shortening flight time, expanding sensor capabilities, or enhancing communication functions, the modular approach ensures the MRO-35 can evolve with changing operational demands.

Furthermore, the MRO-35 supports advanced autonomous flight capabilities. This includes waypoint navigation and obstacle avoidance, which significantly reduces the need for constant pilot intervention. The drone can be pre-programmed to follow specific routes, making it efficient for repetitive tasks like aerial mapping and surveying.

Connectivity is another strength of the MRO-35, featuring secure communication links that enable real-time data transmission to ground control. The UAV can operate in challenging environments while maintaining a robust connection, ensuring that decision-makers receive crucial updates without delay.

In summary, the Millennium Enterprises MRO-35 represents a significant advancement in drone technology. Its blend of endurance, customizable payloads, advanced imaging systems, and autonomous capabilities positions it as a leading solution for a broad range of applications. Whether in defense, commercial sectors, or environmental monitoring, the MRO-35 stands out as a reliable and efficient tool for modern challenges.