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Engineering Research C1;nter Geowob® Cellular Confinement System <br />1320 Campus Delivery Presto Products Geosystems® <br />crsky Fort Collins, CO 60523 Performance Testing <br />Maximum Hydraulic Conditions Tested <br />Design Methodology for Rock Loss <br />Using data collected from ninety tests, <br />regression analysis was performed to <br />develop a methodology for rock loss within <br />installed Geoweb® as determined by the <br />Clopper Soil Loss Index. The following <br />methodology accounts for 96.5% of the <br />variation in observed rock loss: <br />1.=Gd <br />(SU52 042A0371 <br />� ovt Jf <br />w <br />where: L = rock loss (ft); GB and GE _ <br />Geoweb factors; S = bed slope; q = unit <br />discharge (ft2/s); d5 = mean rock size (ft); <br />and A = nominal area of Geoweb® cell (ft2). <br />An envelope relationship was also <br />developed, conservatively predicting rock <br />loss as: <br />Ao.a <br />L=G Sos oa9 )+0.03 <br />d5o <br />Ranges of testing, and confident applicability <br />to field data are as follows: <br />S = 2.5% to 51.84% <br />q = 0.613 to 31.3 ft2/s (max. for GW20V and <br />GW30V = 6.2 ft2/s) <br />d5= 1.141v3.50in. <br />A = 44.8 to 187 int <br />Specific gravity of rock approx. 2.65 <br />i <br />l � � `�1�T •r' I <br />A 1 y r <br />-% <br />I <br />D31 Da .a, 05 C.6; DE <br />MOa 41 RDak Lokk (k) <br />II �_T�ti Foiu_ -=ntiwap�.a�its <br />Comparison of of Geoweb® to Rip -Rap <br />Geoweb® was evaluated on its performance <br />as compared to rip -rap with methods <br />commonly used in engineering practice. <br />Results showed that required rock size for <br />aggregate fill with Geoweb® was at least <br />30% smaller than rip -rap as sized by AN <br />and Johnson (1991) and at least 50% <br />smaller than sizes recommended by <br />USACE (1994). Comparisons emphasize <br />the ability of the confinement system to <br />outperform rip -rap and its cost efficiency as <br />an erosion -protection method, especially in <br />areas where larger rock is not locally <br />available. <br />Appendix 2.05.3(4)-7 Page 6 April 2016 (PR -01) <br />Hydraulic Data <br />Geoweb® <br />Rock <br />Maximum <br />Maximum <br />Maximum <br />Maximum <br />n mum <br />Maximum <br />Type <br />size <br />Velocity <br />Shear stress <br />Flow Depth <br />Rock Loss <br />Manning n <br />Manning n <br />in <br />(im) <br />(lbtft2) <br />(It) <br />(in.) <br />GW20V <br />1.114 <br />16.12 <br />9.28 <br />0.91 <br />3.24 <br />0,02 <br />0.04 <br />3.50 <br />111.50 <br />15.10 <br />1.04 <br />1.61 <br />0.03 <br />0.08 <br />GW30V <br />1.14 <br />12.01 <br />13.17 <br />0.96 <br />4.09 <br />0.03 <br />0.06 <br />3.50 <br />11.69 <br />17.98 <br />1.05 <br />1.86 <br />0,03 <br />0,07 <br />Gw40V <br />1.14 <br />16.31 <br />14.85 <br />'.42 <br />5.98 <br />0.04 <br />0.05 <br />3.50 <br />17.50 <br />15.38 <br />179 <br />2.85 <br />0.04 <br />0.05 <br />Design Methodology for Rock Loss <br />Using data collected from ninety tests, <br />regression analysis was performed to <br />develop a methodology for rock loss within <br />installed Geoweb® as determined by the <br />Clopper Soil Loss Index. The following <br />methodology accounts for 96.5% of the <br />variation in observed rock loss: <br />1.=Gd <br />(SU52 042A0371 <br />� ovt Jf <br />w <br />where: L = rock loss (ft); GB and GE _ <br />Geoweb factors; S = bed slope; q = unit <br />discharge (ft2/s); d5 = mean rock size (ft); <br />and A = nominal area of Geoweb® cell (ft2). <br />An envelope relationship was also <br />developed, conservatively predicting rock <br />loss as: <br />Ao.a <br />L=G Sos oa9 )+0.03 <br />d5o <br />Ranges of testing, and confident applicability <br />to field data are as follows: <br />S = 2.5% to 51.84% <br />q = 0.613 to 31.3 ft2/s (max. for GW20V and <br />GW30V = 6.2 ft2/s) <br />d5= 1.141v3.50in. <br />A = 44.8 to 187 int <br />Specific gravity of rock approx. 2.65 <br />i <br />l � � `�1�T •r' I <br />A 1 y r <br />-% <br />I <br />D31 Da .a, 05 C.6; DE <br />MOa 41 RDak Lokk (k) <br />II �_T�ti Foiu_ -=ntiwap�.a�its <br />Comparison of of Geoweb® to Rip -Rap <br />Geoweb® was evaluated on its performance <br />as compared to rip -rap with methods <br />commonly used in engineering practice. <br />Results showed that required rock size for <br />aggregate fill with Geoweb® was at least <br />30% smaller than rip -rap as sized by AN <br />and Johnson (1991) and at least 50% <br />smaller than sizes recommended by <br />USACE (1994). Comparisons emphasize <br />the ability of the confinement system to <br />outperform rip -rap and its cost efficiency as <br />an erosion -protection method, especially in <br />areas where larger rock is not locally <br />available. <br />Appendix 2.05.3(4)-7 Page 6 April 2016 (PR -01) <br />