WEBVTT 00:21.270 --> 00:24.989 Hi , my name is uh Carlos Ruiz 00:25.780 --> 00:29.049 and I work with the US Army Corps of 00:29.059 --> 00:31.969 Engineers in the environmental lab of 00:31.979 --> 00:33.759 the Engineering Research and 00:33.770 --> 00:36.090 Development Center . Uh Today's 00:36.099 --> 00:39.389 presentation is gonna be on recovery . 00:39.400 --> 00:42.099 It's a tool that we developed to assess 00:42.110 --> 00:45.849 contaminated saline water interactions 00:45.860 --> 00:48.490 and modeling so that we could design 00:49.020 --> 00:52.259 better remediation uh uh 00:52.270 --> 00:55.720 technologies in particularly capping . 00:56.340 --> 01:00.220 This presentation is about uh the model 01:00.229 --> 01:03.189 uh recovery in particularly uh recovery 01:03.200 --> 01:06.760 version five which is a contaminated 01:06.769 --> 01:09.680 saline water interaction model . It was 01:09.690 --> 01:13.459 developed uh originally for 01:15.300 --> 01:18.489 looking at saline water interactions uh 01:18.500 --> 01:21.760 for assessing uh saline 01:21.889 --> 01:22.879 contamination 01:25.930 --> 01:28.760 recovery was developed originally to 01:28.769 --> 01:31.459 provide exposure data for risk 01:31.470 --> 01:35.269 assessment of contaminated salmon sites 01:35.660 --> 01:38.739 to screen remedial alternatives in 01:38.750 --> 01:41.800 particularly no action . Meaning what 01:41.809 --> 01:45.750 happens if we do not do anything 01:45.760 --> 01:47.816 at a particular site , what would be 01:47.816 --> 01:49.910 the effects ? What would be the risk 01:49.919 --> 01:53.389 over time ? Uh The second alternative 01:53.400 --> 01:56.209 that we are able to model would recover 01:56.220 --> 01:59.110 is monitor natural recovery which is 01:59.360 --> 02:02.510 allow the system to recover by itself . 02:02.519 --> 02:05.160 But while we're monitoring recovery 02:05.169 --> 02:08.990 will predict what the outcome should be . 02:09.548 --> 02:12.729 And therefore we could uh compare it 02:12.738 --> 02:15.899 with the actual data to see if we're in , 02:15.908 --> 02:19.248 in past of , of the predicted recovery . 02:19.899 --> 02:22.990 Uh It could also do enhanced monitoring 02:23.000 --> 02:26.800 natural recovery , which is when we add 02:26.809 --> 02:30.199 subtract uh and , and do 02:30.210 --> 02:33.600 things in , in the system such that we 02:33.610 --> 02:36.929 could accelerate the actual uh recovery 02:36.940 --> 02:39.889 that would occur naturally , meaning we 02:39.899 --> 02:42.389 could put a layer of sediment , we 02:42.399 --> 02:45.850 could uh put certain uh amendments or 02:45.860 --> 02:48.850 something of that nature . Uh We could 02:48.860 --> 02:50.693 also do with recovery , residual 02:50.850 --> 02:53.460 management and we could do capping the 02:53.470 --> 02:56.050 model couples contaminated interactions 02:56.059 --> 02:58.170 between the water column , the bottom 02:58.170 --> 03:01.050 sediment , as well as the contaminated 03:01.059 --> 03:04.229 and clean bottom sediments . The 03:04.240 --> 03:06.720 purpose is to evaluate , as we said , 03:06.729 --> 03:09.380 no action , alternative recovery , 03:09.389 --> 03:11.809 capping , reactive capping when it's 03:11.820 --> 03:15.089 when we add amendments , dredging or , 03:15.279 --> 03:18.050 and residence management after dredging 03:19.500 --> 03:23.080 limitations is it's a constant resident 03:23.089 --> 03:25.759 time , meaning , you know , you have 03:25.770 --> 03:29.039 either a , a residence time in the 03:29.050 --> 03:32.500 system or we got a given flow rate . Uh 03:32.960 --> 03:35.440 suspended solids are constant over time . 03:35.449 --> 03:37.619 Toc is constant over time . We have 03:37.630 --> 03:40.639 constant vaal , constant bioturbated 03:40.649 --> 03:43.899 and constant decay rates uses long term 03:43.910 --> 03:47.399 averages and it , it does not address a 03:47.410 --> 03:50.679 catastrophic events as erosion and 03:50.690 --> 03:53.119 deposition from floods or storms . 03:54.139 --> 03:57.289 PC . Uh The model is PC based , it's 03:57.300 --> 04:00.220 user friendly addresses like a full , 04:00.229 --> 04:02.820 fully mixed water body and a layer 04:02.830 --> 04:06.009 bottom uh sediment . It's time variable , 04:06.020 --> 04:09.539 meaning things happen over time . Uh 04:09.570 --> 04:12.520 It's basically for organic contaminants 04:12.589 --> 04:15.759 though we have applied uh heavy metals 04:16.269 --> 04:18.690 computes same in water contaminant uh 04:18.739 --> 04:21.329 concentrations and fluxes over time . 04:21.519 --> 04:24.880 Meaning uh in the all the compartments 04:24.890 --> 04:28.820 and across the compartments . The 04:28.829 --> 04:31.790 schematics , this is uh a 04:31.799 --> 04:35.160 more detail of the previous slides . Uh 04:35.170 --> 04:37.329 You have resuspension , settling 04:37.339 --> 04:40.079 diffusion , you have all the parameter , 04:40.089 --> 04:42.480 all all the processes that occur in the 04:42.489 --> 04:46.079 surface water with the top se uh 04:46.089 --> 04:50.049 or the mixed salmon uh layer . And 04:50.059 --> 04:53.010 in addition to that , we have burial of 04:53.019 --> 04:55.480 the saline over time and we have a 04:55.760 --> 04:59.209 meaning groundwater flow uh coming from 04:59.220 --> 05:03.070 deep salines up toward the the surface . 05:06.940 --> 05:09.829 The model was verified uh with analytic 05:09.839 --> 05:11.561 solutions . It was compared to 05:11.561 --> 05:14.320 laboratory data and it was compared to 05:14.329 --> 05:18.000 an actual uh study that wasn't 05:18.010 --> 05:21.309 done in a Florida uh quarry P A five 05:21.410 --> 05:25.200 year uh project . 05:25.209 --> 05:28.019 And , and it's compared with long term 05:28.029 --> 05:31.059 cap performance data for contaminator 05:31.070 --> 05:34.339 isolation 11 years . Uh This work was 05:34.350 --> 05:38.109 done in Seattle . So these are so 05:38.119 --> 05:40.700 some of the results that uh of the 05:40.709 --> 05:43.820 predictions of the model , uh We have 05:43.829 --> 05:46.420 improved the model over time . Uh The 05:46.429 --> 05:50.010 latest was to uh add groundwater 05:50.119 --> 05:52.209 or addictive flow up to five 05:52.220 --> 05:55.869 centimeters per day . Uh And uh 05:56.109 --> 05:59.660 we could address thin layers uh 06:00.339 --> 06:03.660 to address carbon or reactive caps 06:04.029 --> 06:06.279 appetite and other geo textiles 06:08.510 --> 06:11.640 for a given recovery application . Uh 06:11.649 --> 06:15.589 say a evaluation of a cap . These are 06:15.600 --> 06:18.339 the typical results that we would 06:18.350 --> 06:20.980 obtain from the model , which is the 06:20.989 --> 06:24.399 concentration uh of the contaminant in 06:24.410 --> 06:26.880 the upper layer or what we call the 06:26.890 --> 06:29.869 mixed layer over time . So it will tell 06:29.880 --> 06:33.799 us how the technology that was 06:33.809 --> 06:35.976 applied or the no action is proceeding 06:35.976 --> 06:38.119 over time . It can address uh 06:38.130 --> 06:40.679 groundwater or boiling , meaning a 06:40.690 --> 06:43.970 groundwater flow over time , it can 06:43.980 --> 06:46.036 address that in the mixed layer , it 06:46.036 --> 06:49.760 can it can address uh that in 06:49.769 --> 06:51.589 the same profile 06:52.899 --> 06:55.459 mean , you know , from the top of the 06:55.470 --> 06:58.329 salmon up to the area where the salmon 06:58.339 --> 07:02.049 should be clean . Uh 07:02.059 --> 07:05.010 Recovery has been applied over the past 07:05.019 --> 07:07.809 15 years in many uh 07:07.890 --> 07:11.029 scenarios . Some of the more important 07:11.040 --> 07:14.450 ones are these , the reports for these 07:14.809 --> 07:18.769 uh there uh are papers for some 07:18.779 --> 07:21.959 of these . Uh the late latest one is 07:21.970 --> 07:25.200 our work with uh for Serve up where we 07:25.209 --> 07:27.450 couple it with the food web modeling 07:28.179 --> 07:30.820 model uh to address not only the 07:30.829 --> 07:33.350 concentration of the contaminants but 07:33.579 --> 07:36.600 how it moves into the food . We uh the 07:36.609 --> 07:39.200 updated the recording model , you know , 07:39.209 --> 07:42.149 it was version five for the groundwater . 07:42.160 --> 07:45.040 It was coupled with the food web in 22 . 07:45.489 --> 07:48.670 And uh it has a version with black 07:48.679 --> 07:51.140 carbon that was developed for serve up 07:51.160 --> 07:55.040 in 22 which has not fully 07:55.049 --> 07:57.940 been published . Uh It's just a report 07:57.950 --> 07:58.630 for S 08:03.690 --> 08:07.149 Erdi discovering , developing and 08:07.160 --> 08:09.271 delivering new ways to make the world 08:09.271 --> 08:11.299 safer and better every day .