WEBVTT 1 00:00:00.090 --> 00:00:01.710 Our principled approach 2 00:00:01.710 --> 00:00:04.440 to increase system performance in a MRF 3 00:00:04.440 --> 00:00:06.780 starts with fractionating and liberating 4 00:00:06.780 --> 00:00:08.610 the mixed material stream. 5 00:00:08.610 --> 00:00:11.040 The next process in MRF design 6 00:00:11.040 --> 00:00:14.790 is to selectively separate individual commodities. 7 00:00:14.790 --> 00:00:17.730 Sensor-based NIR and color sorters 8 00:00:17.730 --> 00:00:19.950 are key tools for every MRF, 9 00:00:19.950 --> 00:00:22.410 providing primary sorting functions, 10 00:00:22.410 --> 00:00:24.540 as well as final quality control 11 00:00:24.540 --> 00:00:27.420 on various paper grades and plastics. 12 00:00:27.420 --> 00:00:30.750 As material streams evolve and markets change, 13 00:00:30.750 --> 00:00:35.190 MSS optical sorters allow you to tailor sorting recipes 14 00:00:35.190 --> 00:00:38.880 with the touch of a button for maximum flexibility. 15 00:00:38.880 --> 00:00:42.900 The FiberMax runs belt speeds at 1,000 feet per minute, 16 00:00:42.900 --> 00:00:44.880 the fastest in the industry. 17 00:00:44.880 --> 00:00:48.390 As a result, this machine processes more tonnage 18 00:00:48.390 --> 00:00:51.810 and the air jets achieve over a thousand picks per minute, 19 00:00:51.810 --> 00:00:53.850 which is more than any other solution 20 00:00:53.850 --> 00:00:55.800 available in the market. 21 00:00:55.800 --> 00:00:59.730 The FiberMax improves marketability of final paper grades, 22 00:00:59.730 --> 00:01:03.840 all while reducing hep count on fiber QC lines. 23 00:01:03.840 --> 00:01:05.760 The PlasticMax is the industry's 24 00:01:05.760 --> 00:01:08.820 most efficient optical sorters for plastics. 25 00:01:08.820 --> 00:01:11.400 It accurately identifies and recovers 26 00:01:11.400 --> 00:01:13.440 even the most challenging containers, 27 00:01:13.440 --> 00:01:14.970 such as shortfills 28 00:01:14.970 --> 00:01:19.080 and fully-sleeved PET, PE, and PP bottles. 29 00:01:19.080 --> 00:01:22.140 Technologies like artificial intelligence and robots 30 00:01:22.140 --> 00:01:24.390 are all the buzz in the industry, 31 00:01:24.390 --> 00:01:27.270 but their applications are still quite limited. 32 00:01:27.270 --> 00:01:29.730 Their options should be carefully evaluated 33 00:01:29.730 --> 00:01:32.430 for their true sensor capabilities, 34 00:01:32.430 --> 00:01:35.880 possible picks per minute, material surges, 35 00:01:35.880 --> 00:01:39.270 3D shape and rigidity of the targeted commodities, 36 00:01:39.270 --> 00:01:42.930 effective design, monthly maintenance cost, et cetera. 37 00:01:42.930 --> 00:01:46.110 Overcoming hiring and labor retention challenges, 38 00:01:46.110 --> 00:01:48.810 our highly automated solutions are the backbone 39 00:01:48.810 --> 00:01:53.250 of primary sorting and QC functions in recycling facilities. 40 00:01:53.250 --> 00:01:56.430 MSS, CP's optical sorting division, 41 00:01:56.430 --> 00:01:58.290 offers separation technologies 42 00:01:58.290 --> 00:02:03.210 including NIR, color, metal, or AI-based sensors, 43 00:02:03.210 --> 00:02:05.460 coupled with either conventional air jets 44 00:02:05.460 --> 00:02:07.410 or robotic extraction. 45 00:02:07.410 --> 00:02:10.890 When selecting sensor and extraction tools for your MRF, 46 00:02:10.890 --> 00:02:14.910 go with the MSS ultimate separation technology platform 47 00:02:14.910 --> 00:02:18.030 that meets and exceeds industry standards. 48 00:02:18.030 --> 00:02:20.760 Future-proof the approach to your MRF design. 49 00:02:20.760 --> 00:02:23.283 Fractionate, liberate, separate.