BEGIN:VCALENDAR VERSION:2.0 METHOD:PUBLISH PRODID:-//Tendenci - The Open Source AMS for Associations//Tendenci Codeba se MIMEDIR//EN BEGIN:VEVENT DESCRIPTION:--- This iCal file does *NOT* confirm registration.\r\nEvent d etails subject to change. ---\r\nhttps://www.spegcs.org/events/3112/\r\n\r \nEvent Title: Tech Transfer: Utilizing Micro Bio-Reactor Technology for B ioremediation of Industry Related Wastes\r\nStart Date / Time: Dec 01, 201 5 11:30 AM US/Central\r\nLocation: Norris Westchase Center\r\nSpeaker: Ron Finn and Steve Ellis\r\nGoogle\r\nhttp://maps.google.com/maps?q=9990+Rich mond+Ave.,+Suite+102,Houston,Texas,77042\r\n\r\nForecast\nhttp://www.weath er.com/weather/monthly/77042\r\n\r\nLearn about the latest breakthrough in bioremediation delivery technology that overcomes many of the challenges faced by other bioremedation technologies. In this presentation, Ron Finn, Founder and President of TerraMed Remediation, LLC, and Steve Ellis, Foun der and Executive Vice President of DryLet, will introduce data proving ho w this new micro bio-reactor technology is a significant advancement in th e bio-remediation field. This patented and NCP-listed bioreactor delivery technology: &bull\; Is in an active solid formulation that locks in or &ld quo\;sticks&rdquo\; to the contaminated surfaces and is not wasted by leac hing away &bull\; Delivers significantly greater microbial concentration t han all other microbial technologies available today. This not only equate s to greater remediation power, but also saves on the cost of material, st orage space, weight, freight, and manpower &bull\; Easily overcomes the oi l:water interface issue that water-based microbial delivery systems encoun ter &bull\; Only uses safe non-GMO organisms and is EPA NCP listed &bull\; Requires one-third the moisture content that current wet bioremediation t echnologies need to function. This is an especially crucial parameter in a rid job locations. This also allows for less ecological damage due to over saturation of the soil. &bull\; Leaves the post-remediated soil in better condition than the start, from contamination to soil that can immediately be used for plant growth. This technology can restore hydrocarbon-laden so il to an improved plant-friendly environment and leaves a minimal ecologic al footprint. &bull\; Can be applied from aircraft to remediate the marshl and interface between water--- This iCal file does *NOT* confirm registrat ion.Event details subject to change. ---\r\n\r\n--- By Tendenci - The Open Source AMS for Associations ---\r\n UID:uid3112@spegcs.org SUMMARY:Tech Transfer: Utilizing Micro Bio-Reactor Technology for Bioremediation of Industry Related Wastes DTSTART:20151201T173000Z DTEND:20151201T193000Z CLASS:PUBLIC PRIORITY:5 DTSTAMP:20240329T094241Z TRANSP:OPAQUE SEQUENCE:0 LOCATION:Norris Westchase Center X-ALT-DESC;FMTTYPE=text/html:
Learn about the latest breakthrough in bioremediation delivery technol ogy that overcomes many of the challenges faced by other bioremedation tec hnologies. In this presentation, Ron Finn, Founder and President of TerraM ed Remediation, LLC, and Steve Ellis, Founder and Executive Vice President of DryLet, will introduce data proving how this new micro bio-reactor tec hnology is a significant advancement in the bio-remediation field. This pa tented and NCP-listed bioreactor delivery technology: &bull\; Is in an act ive solid formulation that locks in or &ldquo\;sticks&rdquo\; to the conta minated surfaces and is not wasted by leaching away &bull\; Delivers signi ficantly greater microbial concentration than all other microbial technolo gies available today. This not only equates to greater remediation power, but also saves on the cost of material, storage space, weight, freight, an d manpower &bull\; Easily overcomes the oil:water interface issue that wat er-based microbial delivery systems encounter &bull\; Only uses safe non-G MO organisms and is EPA NCP listed &bull\; Requires one-third the moisture content that current wet bioremediation technologies need to function. Th is is an especially crucial parameter in arid job locations. This also all ows for less ecological damage due to oversaturation of the soil. &bull\; Leaves the post-remediated soil in better condition than the start, from c ontamination to soil that can immediately be used for plant growth. This t echnology can restore hydrocarbon-laden soil to an improved plant-friendly environment and leaves a minimal ecological footprint. &bull\; Can be app lied from aircraft to remediate the marshland interface between water
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