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Download - Remediation of Contaminated Sites - F. Rigas 2010 - In Greek

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2010 ( ) . ( ) , , ( ), . , 180-119 .. 1. ......................................................................................................................................... 1 1.1 .......................................................................................................................... 1 1.2 .................................................................................................................. 4 1.2.1 .................................................................................................................. 4 1.2.2 .................................................................................................................... 5 1.2.3 ............................................................................................................................... 6 1.2.4 ........................................................................................................ 6 1.2.5 .................................................................................................. 7 1.3 ............................................................. 10 1.4 .......................................................................................................... 13 1.4.1 ........................................................................................................... 13 1.4.2 ........................................................................................... 13 2 ........................................................... 17 2.1 ........................................................................................................................................ 17 2.1.1 .............................................................................. 17 2.1.2 .............................................................................. 17 2.2 ................................................................................... 18 2.3 .......................................................................... 18 2.3.1 .................................................................................................... 19 2.3.1.1 ........................................................................................................................................... 19 2.3.1.2 ..................................................................... 21 2.3.1.3 ...................................................................... 22 2.3.1.3.1 ............................................... 23 2.3.1.3.2 ............................................... 25 2.3.1.4 ............................................................ 27 2.3.1.4.1 ................................................................................................... 28 2.3.1.4.2 ...................................................................... 36 2.3.1.5 ........................................................................................... 38 2.3.2 ........................................................................................................................ 40 2.3.2.1 ........................................................................................................................................... 40 2.3.2.2 ..................................................................... 42 2.3.2.3 ...................................................................... 43 2.3.2.3.1 ............................................................................................ 44 2.3.2.3.2 ...................................................................................................... 47 2.3.2.4 ..................................................................... 49 2.3.2.4.1 ................................................................................................... 50 2.3.2.4.2 ...................................................................... 54 2.3.2.5 ........................................................................................... 55 2.3.3 ................................................................................................................... 57 2.3.4 .................................................................................................................. 58 2.3.4.1 ........................................................................................................................................... 58 2.3.4.2 ............................................................................................ 60 2.3.4.2.1 ................................................................................................... 61 2.3.4.2.2 ...................................................................................................... 65 2.3.4.2.3 ........................................................................................................... 66 2.3.4.2.4 .......................................................................................................... 67 2.3.4.3 ............................................................................ 68 2.3.4.4 ............................................................................... 70 2.3.4.5 ........................................................................................... 70 2.3.5 ................................................................................................ 72 2.3.6 ........................................................................................................... 73 2.3.6.1 ...................................................................................................................................... 73 2.3.6.2 .................................................................................................... 74 2.3.7 ................................................................................................................. 75 2.3.8 .................................................................................................................... 76 2.3.8.1 ........................................................................................................................................... 76 22.3.8.2 ...................................................................................................... 78 2.3.8.2.1 ........................................................................................................ 78 2.3.8.2.2 ................................................................................................ 82 2.3.8.2.3 ........................................................................................................... 83 2.3.8.2.4 ......................................................................................... 84 2.3.8.2.5 ......................................................................................................................... 84 2.3.8.3 ......................................................................................................... 85 2.3.8.3.1 .......................................................................................................................... 85 2.3.8.3.2 ............................................................................................................................ 88 2.3.8.4 ............................................................................... 91 2.3.8.4.1 ..................................................................................................................... 92 2.3.8.4.2 ............................................................................................................... 93 2.3.8.4.3 .................................................................................... 93 2.3.8.4.4 , ............................................................... 94 2.3.8.4.5 ............................................................................ 95 2.3.8.4.6 ..................................................... 97 2.3.8.4.7 .............................................................................................................. 98 2.3.8.5 .............................................................................................................................. 98 2.3.8.6 ........................................................................................................................................ 101 2.3.8.7 ..................................................................................................................... 103 2.3.8.8 .................................................................. 104 2.3.9 ............................................................................................................ 106 2.3.10 / ................................................................................... 106 2.3.11 ............................................................. 107 2.4 ......................................................... 107 2.4.1 ........................................................................................... 108 2.4.2 ................................................................................................................. 108 2.4.3 ..................................................... 108 2.4.4 ..................................................................................................... 109 2.4.4.1 ......................................................................................................... 110 2.4.4.2 ........................................................................................................................ 111 2.4.5 .......................................................................................................... 111 2.4.6 ............................................................................................................ 112 2.4.7 ......................................................................... 113 2.5 ................................................................... 113 3 ................................................... 115 3.1 ...................................................................................................................................... 115 3.1.1 ............................................................ 115 3.1.2 ..................................................... 116 3.1.3 .................................................................. 116 3.2 ................................................................. 117 3.3 ......................................................................................... 119 3.4 - ........................................................................................ 120 3.5 ................................................................... 121 3.5.1 ......................................................................................................... 121 3.5.2 ......................................................................................................... 122 3.5.3 .................................................................................................... 123 3.5.4 ............................................................................................... 124 3.5.5 .............................................................................................................. 126 3.5.6 ............................................................................................... 127 3.5.7 ............................................................. 128 3.6 .................................................................. 128 3.6.1 ..................................................................................................... 129 3.6.2 ..................................................................................................................... 129 3.6.3 ............................................................................................... 129 3.6.4 ..................................................................................................................... 130 3.6.5 ....................................................................................................................... 130 3.6.6 / ................................................................................................... 131 3.6.7 ............................................................................................................................. 132 33.6.8 ................................................ 132 3.7 ....................................................... 133 ........................................................................................................................................ 135 .................................................................................................................................... 143 .......................................................................................................................................... 147 1. 1.1 , , . , , , , . . , . . , . . , , , . . . , , . (in situ) , . . (ex situ) . , (off-site) . 2 , , , . , , , , , ( ), . ( ) ( ). , , , , , , . , , . , , , , . , . . " " . , . . , , , , . , . : 3 , . . . . . . , , , , . , . , , , , . , : (.. , ) (.. ) , . (.. , ) , , , . (.. , , ) . (.. , ) , ( , , ). (.. ) , , 4 . 1.2 1.2.1 (aquifer) . , . , (. 1.1). 1.1. . (unconfined aquifers) ( ) . . (perched aquifer) 5 , . . (confined aquifers) . , . , ( ). . . , ( ). , , , . 1.2.2 (hydraulic head) . Bernoulli: gvgpz h22+ + = (1.1) h , z , p , g v . : gphp= (1.2) ( ph >0). , . (1.1) . 61.2.3 (n) (Vv) (VT) : TVVVn = (1.3) , . , . (ne), . , . . 1.1. 1.1. . (%) (cm/s) , 25-40 > 1 10-1 (sand) 25-50 1 10-1 - 1 10-3 30-50 1 10-3 - 1 10-5 (silt) 35-50 1 10-5 - 1 10-7 (clay) 40-70 < 1 10-7 1.2.4 . , . . Darcy : 7 Q = KAS = nvA (1.4) : Q: (cm3/s) K: ( ) (cm/sec) S: , A: (cm2) v: (cm/s) n: , . : k = K ( / g) (1.5) : k: (cm2) : (cm/sec) : (g/cmsec) : (g/cm3) g: (cm/sec2). 20C: ( / g) = 1,0210-5 cmsec. k cm2 Darcy 108. . 1.1. 1.2.5 , . , . . 1.2 . . , (cone of depression). (radius of influence, Ro). 8 RoHhhw 1.2. . , . , . . . 1.3 . 9 rwhwh1r1r2h2Qho 1.3 . : ) / ln(1 22122r r h hK Q = t (1.6) 1.1 20 m 20 cm. 210 L/min, 1 m 5 m 0,8 m 10 m. . : Q = 210 L/min = 0.0035 m3/s 10Ho = 20 m Dw = 20 cm rw = 0,1 m r1 = 5 m ho h1 = 1 m r2 = 10 m ho h2 = 0,8 m . (1.6) : ) 5 / 10 ln() 1 20 ( ) 8 , 0 20 (0035 , 02 2 = K t = 1,01110-4 m/s , rw , . (1.6) : ) 1 , 0 / 5 ln() 20 ( ) 1 20 (10 011 , 1 0035 , 02 24 x = t x = 2,17 m 1.3 , () . , . . () light non-aqueous phase liquid (LNAPL) () dense non-aqueous phase liquid (DNAPL). 1.4, (vadose zone) (LNAPL) (DNAPL) 1.5 1.6, . 11 (Vadose) 1.4. . (Vadose) NAPLLNAPL 1.5. (LNAPL). 12 (Vadose) NAPL DNAPL 1.6. (DNAPL). . 1.4 . . 1.5 1.6 . , , (plume), . , . , . . 13 1.4 1.4.1 () , , . 1.7. , , : 1.4.2 . , , . , : 1 : . . , . . 14 (VADOSE) , 1.7. . 152 : , (. 1.7). . . . 3 : : (.. ). /. . . : 1: . 2: . , , . 3: . 4: . 17 2 2.1 (in situ) . . , , . 2.1.1 , . , , . , , , . , . 2.1.2 , . , . , , . , . . 18 ( LNAPL - DNAPL) , . , , , . . , . , . , . 2.2 . 2.1 , , . , . , . , , , , . 2.3 . (), . 19 (VADOSE) / / 2.1. . 2.3.1 2.3.1.1 (soil vapour extraction), (soil vacuum extraction - SVE) (soil venting), . . , . . . , , . 20 () () . . , . , , . . , . . 2.2. 2.2. . 21 . 2.1. 2.1. . , , . . 6 2 . 20-50 $/ton . , . . 90%. . , . . , . 2.3.1.2 , . : , . , . , . , , , . . . 2.3 . 22 . . . , k ) (2cm1610 141012101010 810 610 410 210300250 200 100) ( Co 2.3. . 2.3.1.3 . , . 23 , , . , . 2.2. 2.2. Henry 2.3.1.3.1 . 13 ( 10-16 10-3 cm2) , ( 10-13 10-5 cm2). , . , , , . , . , . . 2.3. 24 2.3. (SVE). (k) SVE k 10-8 cm2 10-8 k 10-10 cm2 . . K < 10-10 cm2 . , . , , . . . . , . . . . . , 1 m . 3 m 25 , , . . 2.5. 2.5. (SVE) SVE > 3 m 1 m < < 3 m (.. ) < 1 m 2.3.1.3.2 . . . 0,5 mm Hg . , , , . . 2.6 . 26 2.6. (mm Hg 20C) -t-- 245 76 22 11 7 6 0,5 - 0,2 , , , . . , . . 2.7. 2.7. (C) 40 - 225 180 - 300 200 - 338 > 275 , 250300C , . , , . 27 , . , . . Henry Henry . , Henry , . Henry . 2.8. , 100 atm . 2.8. Henry Henry (atm) - 4700 359 266 230 217 72 34 -t-- 27 2.3.1.4 . , . 282.3.1.4.1 . . , . , 2,5 mm . , , , , . , 1,5 m 30 m . . . . . , 7,5 cm 2,5 m . . (.. 2,5 m) . , . , . . 0,3 3 m3/min. 29 . , . . . , , . . . , . . . . . . : 30 hrhr vapor m soil m soil m vapor mQVE == =) / () ( ) / (33 3 3c (2.3) : : (hr) : (m3 / m3 ) V: (m3) Q: (m3 / hr) . , . : , ( , , , ) 2.4 . 31 2.4. . . . . . 2.9 . 32 2.9. . (1,5-30 m) > 3 m (< 7,5 m) < 3 m > 7,5 m. . . . . . = ( )2 (2.4) = = [ (m2)] / [ (m2 / )] (2.5) (824 ). . = q t V / c (2.6) : : (m3 / m3 ) V: (m3 ) q: (m3 / hr) t: (hr) 33 : . , , . . . . PVC . 5 30 cm 10 cm. . 2.5 . . 30-60 cm 30-60 cm . . . () , . , . . . 2.6 . PVC . . , . . 34 / PVC PVC PVC 2.5. . , . , 35. . PVC PVC 2.6. . ( ) . . , . , . . , . 36 . (HDPE), , . . , . , ( ). (Volatile Organic Compounds - VOC) , . , . , , . , . , 20% . . , , 10% . 2.3.1.4.2 . . . 37 . . M = C Q t (2.7) : : (kg) C: (kg/m3) Q: (m3/hr) t: (hr) , (. 2.7). (VOC) (kg) VOC (ppm) VOC VOC 2.7. . 38 . , .. . , , , . , . . ( 7-10 ) 15- . 2.3.1.5 (. 2.10). , . 2.10. . > 10-9 cm2 > 1 m 39 < 0,5 mm Hg Henry > 0,5 mm Hg , .. < 300oC > 100 atm ( ) ( , , , ) 1,530 m , (7-10 ) 15-30 40 2.3.2 2.3.2.1 (Bioventing) . . , , , , . . , , . . , , . , . . , . , , . , . . 2.8. . 41 () 2.8. . , , . , . . . 2.11. 42 2.11. . , . , . . (.. ). (.. , , ). , 6 2 . . : 45-140 $/ton . . , . . 2.3.2.2 : , . , . . , (.. ) (.. ). , . . 2.9. . 43 . . . , k (cm^2)10-16 10-14 10-12 10-10 10-8 10-6 10-4 10-2 2.9. . 2.3.2.3 . , . , , . 2.12. 44 2.12. . pH Henry 2.3.2.3.1 , . , . , , . , kg 3-3,5 kg . 1 kg 0,16 m3/ h. , . , , (), , . , , . 45 , . , . (Terminal Electron Acceptor TEA). . , . , (.. ) . ( ). . . , 1000 CFU (Colony Forming Units) , / . , 100 CFU/gr . . pH pH 6 8 . , . 40 85 % . 46 . , . . , . . 10C 5C. , 45C. 10 45C 10C, . 18C . . , . . / / 100/10/1 100/1/0,5 . , , . 472.3.2.3.2 . , . , . (9 ) . . 2.13 , . 2.13. . -, , - , , , , , , 48 . , , , , . , , . , . , 25.000 ppm, 2.500 ppm / . . , , . , , . . , 0,1 ppm . 95% . , . 0,1 ppm 95%, , , . . 2.14. 49 2.14. . > 0,1 ppm < 95% < 0,1 ppm > 95% . . . . 0,5 mm Hg . , 0,5 mm Hg. , . Henry , Henry. , . 250-300C . Henry, 100 atm . 2.3.2.4 . , . 50 . 2.3.2.4.1 . ( ) , . , , , , . , 1,5 m 30 m . . . . . , . 7,5 cm 2,5 m 0,73,4 bar. . (.. 2,5 m) . . . , 51. , . . 0,15 3 m3/min. . , . , , . . . , . . . . . . 52 : hrhr vapor m soil m soil m vapor mQVE == =) / () ( ) / (33 3 3c (2.8) : : (hr) : (m3 / m3 ) V: (m3) Q: (m3 / hr) . , . , , , . : ( ) , ( ) ( , , , ) 53 , , . , , . . 2.10 . . ( ), , . 2.10. . 54 . . , (.. ). PVC (< 60 cm) . . pH, . 2.3.2.4.2 , , . , , ( ). , . . . . ( 7-10 ) 15- . (VOC) , . 2.11. , , . . 6 , 55 , . , . VOC VOC CO2 (VOC) VOC CO2 CO2 2.11. (VOC) VOC CO2 . 2.3.2.5 (. 2.15). , . 56 2.15. . pH // > 10-10 cm2 > 1.000 CFU / gr 6 8 40 85% 10 45C 100 / 10 / 5 100 / 1 / 0,5 > 1 m > 0,5 mm Hg < 300oC Henry > 100 atm < 25.000 ppm < 2.500 ppm ( ) 1,530 m 57 ( , , , ) , (VOC) CO2 (7-10 ) 15-30 2.3.3 (Bioslurping) , . , , , . . 2.12. 58 LNAPL -LNAPL 2.12. . 2.3.4 2.3.4.1 (landfarming) (land treatment) , . / . , pH, , . , , , , . , ( ). 59 , . , , , . ( 1 m), . 1,5 m, . 2.13. Porous CupLysimeters Tilling for SoilAerationContaminatedSoil BermLeachateCollection andTreatment(Optional) GroundwaterMonitoringWells () 2.13. . . , , . . 2.16. 60 2.16. . . 95% 0,1 ppm . , 6 2 . . : 30-60 $/ton . . . . . . . 2.3.4.2 , , , . 2.17. , , , . 61 2.17. . pH 2.3.4.2.1 , , (), , . , . , . . . , , , . . , ( ) . , . . 104 107 CFU/g. , 103 CFU/g. 62 . , . . . , . pH pH 6 8 . pH pH . pH . , . 40 85 % 12-30% . , . , . . . . 10C 5C. , 45C. 10 45C 10C, 63. , . , , . , , . , . , , . / / 100/10/1 100/1/0,5 . , , . . 90% . . 2.1 2.000 m3 1,75 g/cm3 1.000 mg/kg. . : ( ) =33 63 3311010175 , 1 2000mcmgkgcmgm = 3,5 x 106 kg 64 : ( ) = mgkgkgmgkg661011000 10 5 , 3 = 3.500 kg C/N/P 100/10/1 350 kg 35 kg. , 100 mg/kg 10 mg/kg , . . , , pH, . , . , . , . , , , , . . , . , . , , , . , . , , . 652.3.4.2.2 . , . , . ( 9 ) . . 2.13 , . . , , , , . , , . , . , 10.000 50.000 ppm, 2.500 ppm / . . , 10.000 ppm 2.500 ppm, , . , , . . 66 , 0,1 ppm . 95% , . , . 0,1 ppm 95%, , , . 2.3.4.2.3 , , , . . 10-45C. , . , . , , . 750 mm , , . , . , . 67 , . . 2.3.4.2.4 , . , . , , . , , . : . . . 2.18. 2.18. . / , pH. , , , , , . , , . , , . 68 : . ( ) . , pH. . ( ) . , . . : . C/N/P . . , , . (.. ) . 2.3.4.3 , . 69 . : . 30 45 cm . 60 cm. . ( ), ( ), , (, , pH) ( ). . 2.14 ( ), , . . , . pH , / . / , . . , . , . . , . 70 2.14. . 2.3.4.4 , . , ( ) . . 2.3.4.5 (. 2.19). , . 71 2.19. . pH / / > 1.000 CFU / gr 6 8 40 85% 10 45C 100 / 10 / 5 100 / 1 / 0,5 < 50.000 ppm < 2.500 ppm < 750 mm , 72 2.3.5 (soil flushing) (soil washing) ( ), , . , . . . , , , , , . ( ) . , . . 2.15. 2.15. . 73 , . . , . 2.3.6 . , , 80 300C. . 2.3.6.1 (, ), . . . . . 2.16. . 74 / / 2.16. . 2.3.6.2 (vitrification) . 3600C . , . . , , . , . . . 2.17. . 75 (, ), 2.17. . 2.3.7 (electrokinetics) . . , , , . , , . . . , . , . . . , 76 . , , . . 2.18 . -AC / DC + - 2.18. . 2.3.8 2.3.8.1 (phytoremediation) (in situ) , . , : , , , . . , , . , , 77 (.. ). , , , . . , , . , ( phytoextraction), ( rhizofiltration) (evaportranspiration) ( - phytostabilization). , (, , ), (s), (PCP), (PCBs), (, 1,1,2,2-), (2,4,6- RDX), (, , , , ), (atrazine, cyanazine, alachlor), (-137, -90 ) (, ). , , , , , , , , . , , Iowa , . . . , . 78 2.3.8.2 2.3.8.2.1 (phytotransformation) . . , . , , , ( D COD), ( ). , , . .2.19 . , . , . . (0,5 mol O2 m2 ). ( ). ( -, logKow=1 3,5). , . (logKow > 3,5) . (logKow < 1.0) , . (logKow>3.5) / . 79 2.19. , . 80 , . , . , , , , , . , ( ) , (CO2 ). , (CE) CO2 (, ). -450, . , . (phytovolatilization). . , , . , . , , . (detoxification) . . . 2.20. 81 2.20. 1. , , (atrazine, alachlor) A () (CE) (3, NH4+, PO4-) (, RDX) (, ) (, , ) (, , ) 2. , , (, , (PAHs) , , ( ) (, ) 0-1 m 0-3,5 m 3. , (Pb, Cd, Zn, As, Cu, Cr, Se, U) (PAHs, PCBs, , , , DDT, dieldrin) . . . 4. , M (Pb, Cd, Zn, Ni, Cu) EDTA Pb Se () , , , , . 5. (Pb, Cd, Zn, , Cu, ) (Cs, Sr, U) : - (, , , ) -K (, , ) 82 2.3.8.2.2 (rhizosphere bioremediation) , . (phytostimulation) (plant-assisted bioremediation). . Pseudonomonas spp., BTEX . , , , . , 10-20% . . , ( ). (, , , ). . , . . (1 mm) . , . , p , . p 3 7 , . : - . 83- ( ). - ( ). - . - , . , , , s PCBs. , . . 5x105 , 9x105 , 2x103 gr . 4 10% . 2.3.8.2.3 (Phytostabilization) . , . , . , . in situ . . , . , . , , , , , , . 84 , . 2.3.8.2.4 (Phytoextraction) . . . . ( ) (kg ). (>6,7 ) (>1000 mg /kg). , , , , , . , , , , . EDTA . , . 2.3.8.2.5 (Rhizofiltration) , . . . () . . 85 . , . RDX . , . p . ( ), . . 2.21. 2.3.8.3 2.3.8.3.1 : . . . . . , . , . . , . 86 2.21. . Chernobyl, Ukraine 137Cs, 90Sr 90% 2 . I. Raskin, (elianthus annuus) 8000 . Rutgers, U Asthtabula, OH U 95% 24h B. Ensley, (elianthus annuus) 350 ppb 20.000 ppm . Kansas St. Pb, Zn Whitewood Cr, SD , As, Cd 95% , J. Shnoor, U. of (Populus spp.) . Iowa . Pennsylvania Thlaspi Zn, Cd , R. Chaney, USDA caerulescens Beltsville, MD, Brown 1995 San Francisco, CA Se Se , G.Banuelos, (Brassica ssp.) USDA Salinity Lab, CA Aberdeen, MD Y TCE, PCA (1,1,2,2- H. Compton, J-field site (Populus spp.) -) EPA/ERT Edison, NJ Carswell AFB Y TCE G. Harvey, Ohio FT. Worth, TX 4 (Populus spp.) SITE Wright-Patterson, AFB 87 2.21. (). Milan, Elodeia TNT, RDX > 90% D. Bader, U.S Scirpus lacustris Army Aberdeen (Canary grass) Proving Ground, MA Middletown, IA (Pondweed), Coontail, TNT, RDX J. Shnoor, U. of (Arrowroot), Iowa, K.Howe, Army Y COE Omaha Ogden, UT ( ) Y BTEX, TPH A. Ferro, SITE Phytokinetics Portland, OR Y PCP, PAH A. Ferro, SITE Phytokinetics Martell, IA Y , 90% , Licht, Ecolotree Clarence, IA Paterson and Amana, IA Shnoor (1992) 88 . , . , , . , . , . . 2.3.8.3.2 , . , 2.20. 14C , . (CE) , . , -450 (-). 14CO2 , CE. , . , , 14CO2. (~15%) . (logKow> 3,5) . , PCBs PAHs, . (logKow=1 3,5) , 89 - . (-), . (VOCs) . TCE, , . (logKow< 1) , . , . . 2.20. 14C / / / , 14CO2 () 14C () (-) 90 2.21 . , . , . 2.21, . TCE. , CE 5 . , s, . , , . , () 1.000 mg/kg ( ) () 20.000 mg/kg 200.000 mg/kg . , . , , . , 50% . . , //, ( , , , , ..). . 50% (~700 mg/kg), (400 mg/kg) Brassica juncea, . (>6,7 ), 91 (~1000 mg/kg). 10 . , 500 mg/kg, 5.000 mg/kg . , . , , , , , , . , , , , , . 200 mg/kg . EDTA (0,5 10 g EDTA /kg ) , . . , , . , , , (), . 2.3.8.4 , , . . , . : - . - . - . - , . - . - . - . 922.3.8.4.1 . , , ( ) - . , (.. , ) , . . , , , . , (, ), , PCBs PAHs. TCE. . , . . , , PAHs. . , , , , , . , . . , . . , , , . , . , Thlaspi spp. , (. 2.21). . 93 , . , . . , . , , , , , , , . 2.3.8.4.2 . , . , . , , , . , , (15 15 m). , . , . . , , . , , , . , (logKw= 1 3.5) . , . 2.3.8.4.3 , , . 2.500 5.000 , 94 0,30-0,45 m 0,30-1,80 m . 0,60 m 3 m . . Salix, , . ( 25% ) . , 1.500-2.000 . 6 , , (). To . Populus deltoides x nigra DN-34 (mperial Carolina) 30 , . . 200-600 g/m2 (2-6 ton/ha) , 1 3 , . , 0,90 m. 30% . 4 2.400-4.000 g/m2 350-700 mg/L (=3,6%, =0,7%, =2,4%, : Mg, Na, Si, S, Fe, Zn, Mn). H . 2.3.8.4.4 , , 25-50 cm , , . . , , . , , , . 95 , // , (, , , , ). 55 kg P 110 kg N , . . , pH . 17 . 0,5-1%, . . . , . . , . , EDTA (0,5-1 g D/kg ) . 2.3.8.4.5 . , , () . , . , . , (transpiration stream concentration factor TSCF) 96 , . : U= (TSCF) (T) (C) (2.9) U: (kg/ha/yr) SCF: () T: (L/ha/yr) C: (kg/L) , .. . (downstream side). . , , . , . TSCF . (2.9) . 2.22. (root concentration factor RCF) (mg/kg mg/L). . (, , , , , , ) 0,9 1,5 m . 2,27-3,78 m3 (6.000 ). 0,76 m3 (>25% ) . 2 m . 4 m 40, . , . ( ) , . 97 2.22. (TSCF) (RCF) . logKow -logCwsat 25oC (mol/L) Henry 25oC (.) -logPo 25oC (atm) . . TSCF* . . RCF** (L/kg) 2,13 1,64 0,225 0,90 0,71 3,6 2,69 2,25 0,276 1,42 0,74 4,5 - 3,15 2,80 0,324 1,90 0,63 6,0 m- 3,20 2,77 0,252 1,98 0,61 6,2 TCE 2,33 2,04 0,437 1,01 0,74 3,9 0,90 0,41 2,2x1052,89 0,26 3,1 1,83 1,77 0,0025 3,68 0,62 3,4 1,45 0,20 >1,0x1053,59 0,47 3,2 - 5,04 4,27 1,5 x104 6,75 0,07 54 2,69 3,81 1,0 x107 9,40 0,74 4,5 1,2,4-- 4,25 3,65 0,113 3,21 0,21 19 RDX 0,87 4,57 - - 0,25 3,1 * TSCF = 0,75 exp{-[(logKow - 2,5)2/2,4]} (2.10) ** RCF = 3,0 + exp(1,497 logKow - 3,615) (2.11) 2.3.8.4.6 . (2.9) , . , : dM/dt = U = -k M (2.12) 98 : k: (yr-1) U: (kg/ha/yr) M: (kg/ha) t: (yr) , . (2.13): = Mo e-kt (2.13) : : (kg/ha) : t = (ln M/Mo) / k (2.14) t: , yr M: , kg Mo: , kg 2.3.8.4.7 , . . , , . , , (, , ), (, ) . . 2.3.8.5 O . (1)-(4) . , TCE , . 99 2.2 TCE 3 . 100 mg/L. 3.700 TCE. , 0,91 m 2.330 L . , TCE 2.440 kg 244 kg (90% ). U= (TSCF) (T) (C) TSCF = 0.74 (. 3) T = (2.330 L//yr) (3.700 /ha) = 8,62 x 106 L/ha/yr) Co = 100 mg/L Uo = 638 kg/ha/yr : k = U / Mo = (638 kg/ha/yr) / (2.440 kg/ha) = 0,26 yr-1 t = (ln M/Mo) / k = - ln(244/2.440) / 0,26 t = 8.9 To TCE , . 2.3 600 mg/kg 30 cm. 400 mg/kg. , (Brassica juncea) . EDTA, 5.000 mg/kg ( ) 6.700 kg . 1,5 kg/L. . 100 U = = = (5.000 mg/kg) (3x6.700 kg/ha/yr) (10-6 kg/mg) = 100 kg/ha/yr Mo = = = (600 mg/kg) (1.5 kg/L) (1.000 L/m3) (10-6kg/mg) (30 cm) (10-2 m/cm) = (104 m2/ha) = 2.700 kg/ha 0,30 cm : Vs = (0,30 m) (10.000 m2/ha) = 3.000 m3/ha 0,30 cm : s = (1,5 kg/L) (103 L/m3) (3.000 m3/ha) = 4,5*106 kg/ha ( 400 mg/kg) : M = (400 mg/kg) (10-3 kg/mg) (4,5*106 kg/ha) = 1.800 kg/ha ( ), EDTA , : t = (Mo - M) / U = (2.700 1.800) / 100 = 9.0 9 , EDT, . , 400 mg/kg , . 1012.3.8.6 , . . , , (Darlene Bader) (canary grass), 30% (. 2.21). . 2.23-2.25 . 2.23. ( 1996). 1. $ 50.000 10.000 10.000 5.000 50.000 50.000 25.000 50.000 $ 250.000 2. $ 100.000 25.000 / 100.000 105.000 ( ) 50.000 280.000 $ 660.000 102 . 2.23 . . . 2.24 , , . , 5 . . 2.25, , , . . . 2.24. ( 1987). ($/m3) () / 90-200 6-9 / () 100-400 6-9 250-500 8-12 5.000 m3 15-40 18-60 / 103 2.25. ( ) $/ton 10-40 55-170 20-240 130-330 90-220 / 260-370 400-480 220-1650 2.3.8.7 H . . , . . . . 2 : ; ; ; ; , , , . 104 . 2.3.8.8 . , , . , . . , . . . 2.26 . 2.26. . / . , . log Kow = 1-3,5 . . , . . . . , , , , . . . . , , , . >6,7 ton /ha/yr >1.000 mg /kg . / . . . 200-1.000 gr/m2. : . . 2.3.9 (natural attenuation) . , (), ( ). () , () . , . . . , . , . (, , ), . . 2.3.10 / / (delivery/recovery systems) , , . . / . , . / (pneumatic/hydraulic fracturing) 107 . . ( ) ( ) . . 2.3.11 ( ), . , , , . , . . , (, , ) . , , . 2.4 , . . , , , , . , . 108 2.4.1 (free product pumping) , , . . . , . , , . . 2.4.2 (Bioslurping) . . . 2.4.3 (pump and treat) . , . . . . , , 109 . () . 2.21, (), ( ) . , . - 2.21. . , . , , . , . . 2.4.4 . 110 , . 2.4.4.1 (pump and reinject) , (. 2.22). . , , . / . . / 2.22. . 1112.4.4.2 (air sparging) . / . (. 2.23). Vadose 2.23. . 2.4.5 , (treatment walls) , . . 2.24, . , , 112, , , . , , . . . , . . . 2.24. . 2.4.6 , . 113() ( ). . . 2.4.7 , . . . 2.5 , , . . , , , , , / , . , . , , . , , . , , . , . 3 3.1 , , , . . , . , , . 3.1.1 , . , . , . , . , . , , . , 116 , . . 3.1 . 3.1. . / 3.1.2 . : , . 3.1.3 . : 117 , , 3.2 . 3.1. -, . - . (. 3.2). , . , . 3.1. . 118 3.2. . . 3.2 . . , . 119 3.2. . () ( ) ( ) 3.3 (free product recovery) . . . ( ) , ( ) 120 . . , 10-100 ppm. , , , . , . , , . , . 3.4 - , , . , . - , , . - : . . . , . pH. pH . . . . , . 1213.5 3.5.1 (air stripping) , . , , . () , (. 3.3). , , . , . , . 3.3. . . 2 23 m3/h . , . , 10 ppm. 122 90%. , . . - . , , . . 3.5.2 (steam stripping) , . , , . (. 3.4). . , . , . , . 123 = 19 12 , 3,6 m , 6 m 1,5 m 3.4. . 3.5.3 (advanced oxidation) , (). / , , ( Fenton). , . . 40 min. 98%, . , . 124. . , ( , ) : 22 + hv 2 OH OH + CH2Cl2 H2O + CHCl2 CHCl2 + O2 + H+ CO2 + 2HCl , . , : 23 + 22 2 OH + 32 . 3 46 m3/h . . , . . , - . 3.5.4 (carbon adsorption) . . . . . , , . 125 ( 1 ppm) 99% . , , . . 3.5. (DAF) 3.5. . 1-23 m3/h . . . . , . , , . 126. . 3.5.5 . . (bioreactors) , . , ) , (. 3.6). 3.6 . ( ) . . ( ) (). . , < 5.000 ppm, 99%. 127 , , . . 1-23 m3/h . . , . . - / . . . . , . 3.5.6 (membrane separation) . . 0,34-6,8 bar 6,8-17 bar, . , , . , . (


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