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The GSE Drainage Design Manual Chapter 4—Design Methods And Concepts <br /> uniform and less dependent on short-term (i.e.,hourly) events, as compared to the final cover.A <br /> number of computer models and manual methods are available for performing water balance <br /> analysis, including: (i)the Simplified Manual Method [Koerner and Daniel, 1997]; (ii) the HELP <br /> Model [Shroeder, et. al., 1994a, 1994b]; (iii)the LEACHM Model [Hutson and Wagenet, 1992]; <br /> (iv)UNSAT-H [Fayer and Jones, 1990];(v) SoilCover[SoilCover,2000];and (vi)HYDRUS-213 <br /> [Simunek et. al. 1999]. A detailed review of each of these water-balance analysis models is <br /> provided in the EPA Guidance Document titled "Technical Guidance for RCRA/CERCLA Final <br /> Covers" [2004], which was still in draft form at the time this manual was prepared. We <br /> recommend the use of HELP Model for calculating impingement rate within a leachate <br /> collection layer for the following reasons: (i) relative simplicity when running simulations; (ii) <br /> industry-wide familiarity with the software; (iii) availability of input parameters and internal <br /> database of information;and(iv)reasonably accurate and conservative results. <br /> Figure 4.6 shows a typical cross-section of a landfill leachate collection system. Landfill <br /> LCRS impingement rates depend on the operational stage of a landfill, which can be <br /> conveniently broken down as follows: (i) initial operation stage; (ii) active operation stage; and <br /> (iii) post-closure stage. Early in the landfill operation, surface water control may not be well <br /> established and may allow for a relatively large portion of surface water to infiltrate into the <br /> LCRS. As filling progresses, the use of protective soil and improved grading techniques reduce <br /> the amount of infiltration into the waste,thus decreasing the LCRS flow rate. In the post-closure <br /> period, the application of the final cover system greatly reduces the amount of infiltration into <br /> the waste, and thus greatly reduces the amount of leachate entering the LCRS. <br /> We recommend breaking the landfill into several operational stages (as few as three and as <br /> many as six)with varying geometry,waste thickness, cover slopes and cover materials. Separate <br /> HELP analyses should be performed for each operational stage modeled. An example of what <br /> the designer might consider when modeling a landfill broken into four stages is presented below: <br /> • Initial Operation Stage—Model leachate flow into the LCRS based on a "fluff' layer of <br /> waste being placed in the landfill cell.A typical waste thickness might be on the order of <br /> 10 feet.The slope might be fairly flat(-2%)with a six-inch daily cover layer. <br /> ._•< -- Drainage Layer <br /> :yy' Primary Liner <br /> ♦ ! L <br /> 'I t <br /> Drain 1 <br /> Figure 4.6 Typical landfill leachate collection and removal system configuration(LCRS). <br /> Page 4-8 <br />