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ut�4 c�.n��i�.h� au�LC 1 i1V Iv.o <br /> Oxygen Release Compound,ORC® <br /> M Iron Fouling <br /> Calculations and Observations <br /> "How much iron can be in the aquifer and not plug the well?". The assumption is that we are talking <br /> about soluble iron (many routine analyses are for total iron) Also, ignoring the complexities of <br /> chelating reactions which actually reduce the problem, let us assume 20 ppm of soluble iron is in an <br /> aquifer Under these conditions, the example below examines the potential for precipitation in the well <br /> There are 1.5 cubic feet a day moving through a six inch well that is 20 feet deep in an aquifer with a <br /> flow of 0 5 feet per day, and a porosity of 0 3 At 20 ppm there are 840 mg/day of iron moving through <br /> the zone as described Assuming the entire 840 mg of ferrous ion becomes oxidized to ferric ion and <br /> then precipitates as ferric hydroxide, 16 grams would be produced each day In the 180 day average life <br /> of the ORC filter socks in this system, the total amount of ferric hydroxide that can come out of solution <br /> in a well with 20 ppm of soluble iron, is 288 grams This is a very small amount - which in turn will <br /> precipitate, for the most part, on the ORC filter socks that are eventually removed Oxygen release will <br /> not be inhibited from the filter sock surface If all of the iron precipitates on the surface of the socks, <br /> it would be less than 1 mm thick and deposited irregularly on the surface - sporadically crystallized at <br /> nucleating centers <br /> Brom practical experience a dispersed, spotty patina of iron hydroxide, has been observed, on ORE <br /> samples after about 9 months in a well with a background of 10 to 40 ppm of soluble iron Therefore, <br /> a high level of soluble iron,on the order of 20 ppm,will not produce a significant amount of precipitated <br /> iron. The worst cases generally related for an observed concentration of soluble iron, is 100 ppm. <br /> Therefore, if the above scenario is multiplied five-fold, it still appears to be manageable <br /> Ultimately, one has to defer to the actual field results The degree to which precipitated iron can foul <br /> the system is the operative issue. If well screens and packing foul, various acids such as HCl, <br /> hydroxyacetic and sulfamic are acceptable and commonly used. Also, tripolyphosphates can be used <br /> to inhibit iron precipitation and is a practice used in conventional water well development. The simplest <br /> solution to any perceived problem is to monitor the process If excessive iron is being deposited, this <br /> will become apparent by the nature of the filter sock when it is withdrawn <br /> SECEN ES IS ------------------------------------------------------------------------------------ <br /> oremediatlon Products 27130A Paseo Espada, Ste 1407, San Juan Capistrano, CA 92675 <br /> Phone 714-443-3136 Fax 714-443-3140 <br />