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These are the user uploaded subtitles that are being translated: 1 00:00:01,620 --> 00:00:04,620 --captions by vitac-- Www.Vitac.Com 2 00:00:04,620 --> 00:00:07,620 Captions paid for by Discovery communications 3 00:00:22,482 --> 00:00:26,137 Narrator: Today on "How it's made"... 4 00:00:26,137 --> 00:00:28,655 Endoscopes... 5 00:00:33,172 --> 00:00:35,068 Megaphones... 6 00:00:40,172 --> 00:00:42,241 And uranium. 7 00:00:53,689 --> 00:00:56,655 An endoscope is a tube With optical glass fibers 8 00:00:56,655 --> 00:01:00,551 And lenses inside attached To a video camera. 9 00:01:00,551 --> 00:01:03,344 Doctors feed the endoscope Through the patient's mouth 10 00:01:03,344 --> 00:01:06,689 Or other opening or insert it Through a tiny incision 11 00:01:06,689 --> 00:01:10,241 Then watch what the camera Captures on a video monitor. 12 00:01:13,310 --> 00:01:16,241 An endoscope lets the surgeon See inside the patient 13 00:01:16,241 --> 00:01:19,931 During an examination Or surgical procedure. 14 00:01:19,931 --> 00:01:22,310 Its light-transmitting Optical fibers work 15 00:01:22,310 --> 00:01:24,620 Like a flashlight Inside the body. 16 00:01:24,620 --> 00:01:28,517 The optical fiber manufacturer Suspends glass rods 17 00:01:28,517 --> 00:01:30,068 From the top of a tall oven, 18 00:01:30,068 --> 00:01:32,172 Which heats them To a melting temperature 19 00:01:32,172 --> 00:01:35,689 Of 1,652 degrees fahrenheit. 20 00:01:35,689 --> 00:01:40,517 Each rod drips downward In the form of a thin strand. 21 00:01:40,517 --> 00:01:45,137 A guide wheel turns this glass Fiber in a horizontal direction. 22 00:01:45,137 --> 00:01:47,551 The fiber then winds On to a drum, 23 00:01:47,551 --> 00:01:49,655 Whose rotation speed Stretches it 24 00:01:49,655 --> 00:01:52,172 To a specific Hair-thin diameter. 25 00:01:54,655 --> 00:01:58,206 A worker combines several single Fiber spools on to a large 26 00:01:58,206 --> 00:02:02,517 Winding wheel to make a bundle Containing thousands of fibers. 27 00:02:06,620 --> 00:02:08,689 To make the cable That connects a light source 28 00:02:08,689 --> 00:02:11,172 In the operating room To the endoscope, 29 00:02:11,172 --> 00:02:13,586 A worker inserts An optical fiber bundle 30 00:02:13,586 --> 00:02:16,172 Into a silicon cable sheathing. 31 00:02:16,172 --> 00:02:19,655 This one has nearly 9,000 fibers. 32 00:02:22,241 --> 00:02:24,275 She screws A stainless steel fastener, 33 00:02:24,275 --> 00:02:28,413 Called a ferrule on to each Threaded end of the sheathing. 34 00:02:28,413 --> 00:02:30,965 After saturating the ferrules And optical fibers 35 00:02:30,965 --> 00:02:34,586 Inside with glue and curing The adhesive with heat, 36 00:02:34,586 --> 00:02:37,275 The worker trims Off excess fibers 37 00:02:37,275 --> 00:02:39,896 And hands off the cable To the next station, 38 00:02:39,896 --> 00:02:42,448 Where a work polishes both ends. 39 00:02:44,862 --> 00:02:47,241 Polishing Finalizes the dimensions 40 00:02:47,241 --> 00:02:51,000 And enables light To shine through. 41 00:02:51,000 --> 00:02:53,724 This quality control test, One of several, 42 00:02:53,724 --> 00:02:55,241 Ensures the fibers can 43 00:02:55,241 --> 00:02:58,172 Withstand a prescribed amount Of pressure without cracking. 44 00:02:58,172 --> 00:03:01,655 The optical fiber manufacturer 45 00:03:01,655 --> 00:03:03,448 Also supplies fiber spools 46 00:03:03,448 --> 00:03:05,379 To the endoscope manufacturer 47 00:03:05,379 --> 00:03:09,551 For the light transmission System inside the endoscope. 48 00:03:09,551 --> 00:03:11,827 Workers cut the bundle Of optical fibers 49 00:03:11,827 --> 00:03:13,103 To the length required 50 00:03:13,103 --> 00:03:15,896 For the endoscope model They're making. 51 00:03:15,896 --> 00:03:18,724 Endoscopes vary in length And diameter, 52 00:03:18,724 --> 00:03:21,827 Depending on the part of The body they're designed for. 53 00:03:21,827 --> 00:03:23,586 After verifying that The diameter 54 00:03:23,586 --> 00:03:25,103 Of the bundle is correct, 55 00:03:25,103 --> 00:03:27,620 They tie the optical fibers With string 56 00:03:27,620 --> 00:03:30,000 To hold them together During insertion. 57 00:03:32,551 --> 00:03:34,827 Then workers insert The fiber bundle 58 00:03:34,827 --> 00:03:37,448 Between the inner and outer Stainless steel sheathes 59 00:03:37,448 --> 00:03:40,310 That make up the main body Of the endoscope, 60 00:03:40,310 --> 00:03:43,275 Pushing the fibers down The length of the inner sheath. 61 00:03:46,310 --> 00:03:48,689 They attach A stainless steel adaptor. 62 00:03:48,689 --> 00:03:50,275 This will connect The light cable 63 00:03:50,275 --> 00:03:51,931 From the operating room Light source 64 00:03:51,931 --> 00:03:53,206 To the endoscope, 65 00:03:53,206 --> 00:03:55,482 Transferring light To the optical fibers 66 00:03:55,482 --> 00:03:58,724 Inside the endoscope. 67 00:03:58,724 --> 00:04:00,448 A worker inspects those fibers 68 00:04:00,448 --> 00:04:03,275 Under magnification For black spots. 69 00:04:03,275 --> 00:04:05,586 Black spots indicate Broken fibers, 70 00:04:05,586 --> 00:04:10,103 Which would interrupt The transmission of light. 71 00:04:10,103 --> 00:04:14,413 An endoscope transmits an image Much like a telescope does. 72 00:04:14,413 --> 00:04:17,655 Optical lenses send reflected Light, which produces the image, 73 00:04:17,655 --> 00:04:19,310 From inside the patient 74 00:04:19,310 --> 00:04:22,413 All the way up to your eye Peering through the top. 75 00:04:22,413 --> 00:04:26,689 The lenses in the endoscope Are glass rods. 76 00:04:26,689 --> 00:04:29,000 After cleaning them With chemical solution, 77 00:04:29,000 --> 00:04:30,862 Workers line them up In a fixture 78 00:04:30,862 --> 00:04:34,862 With brass spacers Of various lengths in between. 79 00:04:34,862 --> 00:04:37,206 Depending on the length Of the endoscope, 80 00:04:37,206 --> 00:04:39,448 There are five to seven lenses. 81 00:04:39,448 --> 00:04:43,896 The spacers create specific Distances between them. 82 00:04:43,896 --> 00:04:46,896 Once workers have assembled The image transmission system, 83 00:04:46,896 --> 00:04:49,551 They gently slide it Off the fixture 84 00:04:49,551 --> 00:04:52,793 Into the inner sheath Of the endoscope. 85 00:04:52,793 --> 00:04:54,896 Then, they screw on An ocular cap 86 00:04:54,896 --> 00:04:57,379 To hold it all in place. 87 00:04:59,862 --> 00:05:02,344 A worker cleans The cap's glass top, 88 00:05:02,344 --> 00:05:04,103 Then attaches an eyepiece. 89 00:05:04,103 --> 00:05:06,413 This gives the surgeon The option of either 90 00:05:06,413 --> 00:05:09,137 Looking directly Into the endoscope 91 00:05:09,137 --> 00:05:11,862 Or looking at an operating room Video monitor 92 00:05:11,862 --> 00:05:14,275 Which receives the image Via a small camera 93 00:05:14,275 --> 00:05:17,275 Attached to the eyepiece. 94 00:05:17,275 --> 00:05:20,034 This demonstration shows How it all comes together 95 00:05:20,034 --> 00:05:22,310 In the operating room. 96 00:05:22,310 --> 00:05:25,172 After securing the endoscope In a holding fixture, 97 00:05:25,172 --> 00:05:27,137 The surgeon attaches The light cable 98 00:05:27,137 --> 00:05:29,551 Coming from the nearby Light source. 99 00:05:29,551 --> 00:05:32,724 The light travels down And out the endoscope, 100 00:05:32,724 --> 00:05:35,206 Illuminating the area That surgeon's working on. 101 00:05:35,206 --> 00:05:37,827 The lenses reflect the image 102 00:05:37,827 --> 00:05:39,689 To the top of the endoscope, 103 00:05:39,689 --> 00:05:42,275 Where a camera transmits It to a video monitor 104 00:05:42,275 --> 00:05:44,586 That's mounted in front Of the surgeon. 105 00:05:55,172 --> 00:05:56,448 Narrator: in the beginning, 106 00:05:56,448 --> 00:05:58,862 Megaphones were simply Cone-shaped devices 107 00:05:58,862 --> 00:06:01,620 That focused sound forward So it went further 108 00:06:01,620 --> 00:06:04,896 And could be heard More clearly. 109 00:06:04,896 --> 00:06:08,689 In the 20th century microphones, An amplifier and a speaker 110 00:06:08,689 --> 00:06:10,034 Were added to the cone, 111 00:06:10,034 --> 00:06:12,448 And that really Ramped up the volume. 112 00:06:15,551 --> 00:06:18,275 With a megaphone, There's no need to shout. 113 00:06:18,275 --> 00:06:21,551 Just speak, And you will be heard. 114 00:06:21,551 --> 00:06:24,344 This waterproof version Is designed for coaching, 115 00:06:24,344 --> 00:06:27,310 Law enforcement, And military uses. 116 00:06:27,310 --> 00:06:30,793 Production starts with a panel Of four digital circuit boards 117 00:06:30,793 --> 00:06:33,724 That have little Gold pads on them. 118 00:06:33,724 --> 00:06:36,275 An assembler places A stencil over the panel 119 00:06:36,275 --> 00:06:40,275 And aligns the stencil holes With the gold pads. 120 00:06:40,275 --> 00:06:43,034 He then squeegee's Solder paste down the stencil, 121 00:06:43,034 --> 00:06:47,034 And it flows on to The exposed gold pads. 122 00:06:47,034 --> 00:06:51,793 This is before and after The solder past application. 123 00:06:51,793 --> 00:06:54,379 Robotic arms install Electrical components 124 00:06:54,379 --> 00:06:59,448 On the solder-coated pads, Creating circuitry. 125 00:06:59,448 --> 00:07:03,034 Various reels unwind to deliver These little parts. 126 00:07:03,034 --> 00:07:05,689 The robotic arms Suction them off liners 127 00:07:05,689 --> 00:07:09,551 And transfer them to precise Locations on the boards. 128 00:07:09,551 --> 00:07:13,000 The parts will run The megaphone's sirens, 129 00:07:13,000 --> 00:07:15,000 Horns, and microphones. 130 00:07:17,413 --> 00:07:18,689 A technician clamps 131 00:07:18,689 --> 00:07:21,275 One of the completed Circuit boards in a tester. 132 00:07:21,275 --> 00:07:24,482 Spring-loaded pins underneath Make electrical contacts 133 00:07:24,482 --> 00:07:27,758 With the components And probe their performance. 134 00:07:27,758 --> 00:07:31,413 The system runs a full test Of the circuitry. 135 00:07:31,413 --> 00:07:33,724 At the next station, An assembler attaches 136 00:07:33,724 --> 00:07:35,517 A part known As the front can 137 00:07:35,517 --> 00:07:38,862 To the end Of a flared speaker cone. 138 00:07:38,862 --> 00:07:41,413 He then turns his attention To the speaker. 139 00:07:41,413 --> 00:07:45,137 The assembler Inserts screws in the base. 140 00:07:45,137 --> 00:07:47,000 He threads wires From the speaker 141 00:07:47,000 --> 00:07:48,482 Through a hole in the cone 142 00:07:48,482 --> 00:07:50,241 And through the front can. 143 00:07:50,241 --> 00:07:53,379 The assembler then places The speaker in the cone, 144 00:07:53,379 --> 00:07:57,275 And he screws it in place. 145 00:07:57,275 --> 00:08:01,000 He attaches a connector To the protruding speaker wires. 146 00:08:03,068 --> 00:08:05,344 The worker places A mesh metal screen 147 00:08:05,344 --> 00:08:09,034 Over a hole in the rear can. 148 00:08:09,034 --> 00:08:10,827 The assembler taps a nut driver 149 00:08:10,827 --> 00:08:13,758 With a hammer to force The mesh into the hole, 150 00:08:13,758 --> 00:08:16,620 And this shapes the mesh Into a microphone cover. 151 00:08:20,793 --> 00:08:24,620 He removes the newly-formed mic Cover and fits it to the mic, 152 00:08:24,620 --> 00:08:27,965 Manually crimping it around The sides for a snug fit. 153 00:08:33,862 --> 00:08:35,931 He now tucks the microphone Into a tube 154 00:08:35,931 --> 00:08:39,068 That has a sliding inner sleeve. 155 00:08:39,068 --> 00:08:42,896 The assembler inserts the tube Into the microphone hole 156 00:08:42,896 --> 00:08:45,000 In the rear can. 157 00:08:45,000 --> 00:08:47,000 He slides the inside tube down 158 00:08:47,000 --> 00:08:51,793 To push the microphone In the hole. 159 00:08:51,793 --> 00:08:54,793 He secures the knob For turning the megaphone on 160 00:08:54,793 --> 00:08:57,517 And for adjusting the volume. 161 00:08:57,517 --> 00:09:01,137 The assembler installs A mini-circuit board 162 00:09:01,137 --> 00:09:03,482 That's linked to the siren And horn button. 163 00:09:07,103 --> 00:09:09,620 These small spring pins Will mate to a battery 164 00:09:09,620 --> 00:09:13,172 To power The megaphone's circuitry. 165 00:09:13,172 --> 00:09:15,620 He tucks the pins Into molded protrusions 166 00:09:15,620 --> 00:09:17,275 Inside the rear can 167 00:09:17,275 --> 00:09:22,172 And waterproofs them With rubber o-rings. 168 00:09:22,172 --> 00:09:24,379 This megaphone subassembly Is now ready 169 00:09:24,379 --> 00:09:26,275 For the main circuit board. 170 00:09:26,275 --> 00:09:28,931 The assembler threads wires 171 00:09:28,931 --> 00:09:31,724 For this switch trigger, Microphone, siren, 172 00:09:31,724 --> 00:09:35,793 And horn through holes In the board. 173 00:09:35,793 --> 00:09:38,793 He then screws the board To the rear housing. 174 00:09:44,034 --> 00:09:46,068 He fits a silicon O-ring around 175 00:09:46,068 --> 00:09:49,413 The rim of the rear Can to seal it. 176 00:09:49,413 --> 00:09:52,034 The assembler then joins The rear can 177 00:09:52,034 --> 00:09:53,517 With all the working parts 178 00:09:53,517 --> 00:09:56,068 To the front can And cone assembly. 179 00:09:56,068 --> 00:09:58,793 He connects the speaker wires To the circuit board. 180 00:09:58,793 --> 00:10:04,275 This megaphone is now ready For a sound test. 181 00:10:04,275 --> 00:10:07,344 The technician connects it To a temporary battery 182 00:10:07,344 --> 00:10:09,620 And powers it up. 183 00:10:09,620 --> 00:10:11,862 Check, one, two. One, two. 184 00:10:11,862 --> 00:10:13,724 Check, testing, Testing. 185 00:10:13,724 --> 00:10:16,137 One, two, test. 186 00:10:16,137 --> 00:10:18,827 More sensitive Testing is needed. 187 00:10:18,827 --> 00:10:21,758 He encloses the megaphone In an insulated chamber 188 00:10:21,758 --> 00:10:25,206 To shut out background noises. 189 00:10:25,206 --> 00:10:28,137 A computer runs the megaphone At different frequencies 190 00:10:28,137 --> 00:10:31,931 And analyzes its performance. 191 00:10:31,931 --> 00:10:34,413 Once the megaphone passes These tests, 192 00:10:34,413 --> 00:10:36,724 They install handles. 193 00:10:36,724 --> 00:10:39,931 And now it's ready for Anything you have to say. 194 00:10:52,448 --> 00:10:54,344 Narrator: uranium is A metallic element 195 00:10:54,344 --> 00:10:58,344 That was discovered by A german chemist in 1789. 196 00:10:58,344 --> 00:10:59,896 The significance Of this discovery 197 00:10:59,896 --> 00:11:03,034 Wasn't understood For a century and a half. 198 00:11:03,034 --> 00:11:06,827 In 1938, scientists figured Out that uranium atoms 199 00:11:06,827 --> 00:11:09,137 Could be split To produce energy. 200 00:11:13,241 --> 00:11:15,344 The size of a fireplace log, 201 00:11:15,344 --> 00:11:18,896 This nuclear fuel bundle Generates a lot more heat. 202 00:11:18,896 --> 00:11:20,724 It's packed with enough uranium 203 00:11:20,724 --> 00:11:24,793 To power 100 homes for a year. 204 00:11:24,793 --> 00:11:26,551 To obtain the uranium, 205 00:11:26,551 --> 00:11:29,379 The tunnel 1,640 Feet underground 206 00:11:29,379 --> 00:11:32,206 At this site in Northern saskatchewan. 207 00:11:32,206 --> 00:11:34,068 This mine is the largest source 208 00:11:34,068 --> 00:11:37,758 Of high-grade uranium In the world. 209 00:11:37,758 --> 00:11:39,827 The uranium ore lies Beneath a bed 210 00:11:39,827 --> 00:11:43,068 Of water-saturated sandstone. 211 00:11:43,068 --> 00:11:45,482 To reach it, they use Drill bits studded 212 00:11:45,482 --> 00:11:47,724 With tungsten carbide buttons. 213 00:11:47,724 --> 00:11:49,379 Like knuckles on a fist, 214 00:11:49,379 --> 00:11:54,103 The button bits punch Into the rock face. 215 00:11:54,103 --> 00:11:56,034 These first holes are for pipes 216 00:11:56,034 --> 00:11:58,000 That will pull heat Out of the ground 217 00:11:58,000 --> 00:12:01,655 And freeze it around the ore. 218 00:12:01,655 --> 00:12:05,655 The miner operates the equipment By remote control. 219 00:12:05,655 --> 00:12:08,448 It transfers a new piece of pipe To the end of the drill 220 00:12:08,448 --> 00:12:09,965 Roughly every five feet 221 00:12:09,965 --> 00:12:15,655 To penetrate 426 feet Into the sandstone bed. 222 00:12:15,655 --> 00:12:17,103 It takes up to eight days 223 00:12:17,103 --> 00:12:19,413 To install just One length of pipe, 224 00:12:19,413 --> 00:12:22,758 And there are 200 of them. 225 00:12:22,758 --> 00:12:24,103 Workers configure the pipes 226 00:12:24,103 --> 00:12:26,689 So they surround The ore deposit. 227 00:12:26,689 --> 00:12:29,448 These freeze pipes Will stabilize the ground, 228 00:12:29,448 --> 00:12:32,000 And they'll also turn High-pressure ground water 229 00:12:32,000 --> 00:12:35,551 To ice, so it won't interfere With the actual mining. 230 00:12:37,758 --> 00:12:39,862 A freeze plant above Ground chills 231 00:12:39,862 --> 00:12:43,862 Calcium chloride brine To minus-22 degrees fahrenheit 232 00:12:43,862 --> 00:12:46,724 And sends it through The freeze pipes. 233 00:12:46,724 --> 00:12:50,310 The brine absorbs heat As it freezes the ground 234 00:12:50,310 --> 00:12:52,551 And loops back To be chilled again. 235 00:12:54,965 --> 00:12:56,896 Above the uranium deposits, 236 00:12:56,896 --> 00:13:00,448 Workers now gear up To mine the ore. 237 00:13:00,448 --> 00:13:03,379 They'll use this bit To chew into the ore body 238 00:13:03,379 --> 00:13:05,862 In order to make an initial Small-diameter hole 239 00:13:05,862 --> 00:13:08,586 Known as a pilot hole. 240 00:13:08,586 --> 00:13:12,620 The pilot hole maps out The drill route to ore, 241 00:13:12,620 --> 00:13:16,413 And it creates an entry point For larger mining equipment. 242 00:13:16,413 --> 00:13:19,068 From a raised position, 243 00:13:19,068 --> 00:13:21,241 The bit bores vertically Into the rock 244 00:13:21,241 --> 00:13:22,896 To drill the pilot hole 245 00:13:22,896 --> 00:13:25,896 And reach a specific Level below the ore body. 246 00:13:32,310 --> 00:13:34,862 They're now ready For the reamer bit. 247 00:13:34,862 --> 00:13:36,586 The reamer has numerous 248 00:13:36,586 --> 00:13:39,896 Button-encrusted Wheel tentacles. 249 00:13:39,896 --> 00:13:41,793 As this animation shows, 250 00:13:41,793 --> 00:13:45,689 The drill pulls the reamer up The pilot hole, widening it. 251 00:13:45,689 --> 00:13:48,068 And the broken ore falls Into what's known 252 00:13:48,068 --> 00:13:51,689 As an extraction chamber. 253 00:13:51,689 --> 00:13:54,655 Here, a tram operated By remote control 254 00:13:54,655 --> 00:13:57,034 Scoops up the rock. 255 00:13:57,034 --> 00:14:00,862 This remote control system keeps Miners a safe distance away 256 00:14:00,862 --> 00:14:03,137 From falling rock hazards. 257 00:14:03,137 --> 00:14:05,068 It also minimizes their exposure 258 00:14:05,068 --> 00:14:09,241 To the radioactive uranium In the ore. 259 00:14:09,241 --> 00:14:10,620 As another precaution, 260 00:14:10,620 --> 00:14:13,172 Workers continuously Ventilate the mine, 261 00:14:13,172 --> 00:14:16,448 Introducing fresh air Every 20 minutes. 262 00:14:16,448 --> 00:14:18,965 Steered by The operator's joystick, 263 00:14:18,965 --> 00:14:22,310 The tram delivers The ore to a scanner. 264 00:14:22,310 --> 00:14:25,413 By measuring the amount Of radioactivity in the ore, 265 00:14:25,413 --> 00:14:26,620 The scanner determines 266 00:14:26,620 --> 00:14:30,724 The uranium content Is about 15%. 267 00:14:30,724 --> 00:14:34,206 In much of the ore, the uranium Content is even greater -- 268 00:14:34,206 --> 00:14:36,551 On average, around 18%, 269 00:14:36,551 --> 00:14:39,241 And that's considered To be very high-grade. 270 00:14:39,241 --> 00:14:44,793 The train now empties The ore into a chute. 271 00:14:44,793 --> 00:14:48,689 Cameras follow the rocks' Journey to the next station. 272 00:14:48,689 --> 00:14:50,413 Then from a control room, 273 00:14:50,413 --> 00:14:52,655 An operator manipulates A hydraulic hammer 274 00:14:52,655 --> 00:14:54,965 To smash the ore to bits. 275 00:14:57,241 --> 00:14:59,655 The broken ore Then migrates to a mill 276 00:14:59,655 --> 00:15:03,068 That grinds it into a fine sand. 277 00:15:03,068 --> 00:15:05,344 They add water, And it becomes slurry, 278 00:15:05,344 --> 00:15:08,724 Which they then pump To the surface. 279 00:15:08,724 --> 00:15:11,655 Trucks then transport The uranium ore slurry 280 00:15:11,655 --> 00:15:15,965 To a mill nearly 50 miles away. 281 00:15:15,965 --> 00:15:19,103 They pull into a special Off-loading facility. 282 00:15:19,103 --> 00:15:22,206 The support for a vacuum system Aligns with the tote 283 00:15:22,206 --> 00:15:24,620 That encases the slurry tank. 284 00:15:26,931 --> 00:15:30,482 Once in position, a vacuum pipe Drops into the tank 285 00:15:30,482 --> 00:15:33,827 And suctions up the slurry. 286 00:15:33,827 --> 00:15:36,827 Cameras provide a live feed Of the unloading progress 287 00:15:36,827 --> 00:15:41,413 To a control room Almost 23 feet away. 288 00:15:41,413 --> 00:15:43,689 After a wash And a radiation check, 289 00:15:43,689 --> 00:15:45,862 The truck leaves. 290 00:15:45,862 --> 00:15:47,896 Stay tuned for The transformation 291 00:15:47,896 --> 00:15:50,551 Of uranium into nuclear fuel. 292 00:16:02,275 --> 00:16:04,793 Narrator: just one fuel bundle Of uranium contains 293 00:16:04,793 --> 00:16:06,344 The same amount of energy 294 00:16:06,344 --> 00:16:09,689 As just over 71,000 gallons of oil. 295 00:16:09,689 --> 00:16:11,758 But uranium can't Simply be chipped away 296 00:16:11,758 --> 00:16:13,827 From the rock it resides in. 297 00:16:13,827 --> 00:16:16,689 It must be chemically Separated and processed 298 00:16:16,689 --> 00:16:20,344 To make it into usable fuel For a nuclear reactor. 299 00:16:24,551 --> 00:16:28,241 Acid dissolves the uranium, But not the rest of the rock. 300 00:16:28,241 --> 00:16:30,448 It settles to the bottom Of these tanks. 301 00:16:30,448 --> 00:16:35,137 The uranium-acid Solution flows forward, 302 00:16:35,137 --> 00:16:38,724 Leaving the unwanted Minerals behind. 303 00:16:38,724 --> 00:16:41,034 Using a series Of chemical reactions, 304 00:16:41,034 --> 00:16:43,586 They further purify the uranium. 305 00:16:43,586 --> 00:16:47,758 They then roast it At 1,562 degrees fahrenheit. 306 00:16:47,758 --> 00:16:51,862 This concentrates it into A jet-black powder. 307 00:16:51,862 --> 00:16:56,896 The uranium powder flows Into 55-gallon steel drums. 308 00:17:02,275 --> 00:17:04,137 A worker taps The lip of the drum 309 00:17:04,137 --> 00:17:06,206 To remove residual powder. 310 00:17:10,206 --> 00:17:13,517 He then puts the lid On and activates a press 311 00:17:13,517 --> 00:17:15,793 That secures it Tightly to the drum. 312 00:17:18,172 --> 00:17:22,000 As an extra precaution, He seals it with a steel ring. 313 00:17:25,344 --> 00:17:27,931 He labels it to indicate The drum's contents, 314 00:17:27,931 --> 00:17:30,241 Weight, and radioactivity. 315 00:17:32,517 --> 00:17:34,655 Workers stack the drums In a warehouse 316 00:17:34,655 --> 00:17:38,862 To await shipment to the next Processing plant. 317 00:17:38,862 --> 00:17:42,000 There, the uranium goes From black to yellow 318 00:17:42,000 --> 00:17:44,724 As they convert it To uranium trioxide, 319 00:17:44,724 --> 00:17:49,206 An interim chemical form In the processing chain. 320 00:17:49,206 --> 00:17:51,655 They ship the uranium Trioxide in specially 321 00:17:51,655 --> 00:17:54,965 Designed inverted cones. 322 00:17:54,965 --> 00:17:57,275 Upon arrival at The next facility, 323 00:17:57,275 --> 00:17:59,103 A valve opens at the bottom 324 00:17:59,103 --> 00:18:01,241 And the powder flows Into conveyor tubes 325 00:18:01,241 --> 00:18:04,655 That take it into the plant. 326 00:18:04,655 --> 00:18:06,241 Inside, workers dissolve 327 00:18:06,241 --> 00:18:10,413 The uranium trioxide Powder in acid. 328 00:18:10,413 --> 00:18:12,931 A worker takes a sample To test the density 329 00:18:12,931 --> 00:18:16,827 And the chemistry and confirms That both are acceptable. 330 00:18:19,620 --> 00:18:22,206 They then add a chemical To turn the dissolved uranium 331 00:18:22,206 --> 00:18:25,137 Back into a solid. 332 00:18:25,137 --> 00:18:26,862 After more processing, 333 00:18:26,862 --> 00:18:30,172 The uranium trioxide Becomes uranium dioxide, 334 00:18:30,172 --> 00:18:33,206 The chemical form required For nuclear fuel. 335 00:18:33,206 --> 00:18:37,689 Spinning the uranium Dioxide mixes 336 00:18:37,689 --> 00:18:39,241 The different sized particles 337 00:18:39,241 --> 00:18:43,344 To make it A more homogenous blend. 338 00:18:43,344 --> 00:18:46,517 The chemical processing has Also caused the uranium 339 00:18:46,517 --> 00:18:48,344 To change color again. 340 00:18:48,344 --> 00:18:51,586 It is now a fine black powder. 341 00:18:51,586 --> 00:18:53,620 Using several tons of pressure, 342 00:18:53,620 --> 00:18:57,482 Tools shape the uranium dioxide Into pellets. 343 00:18:57,482 --> 00:18:59,620 A revolving wheel With protrusions 344 00:18:59,620 --> 00:19:03,379 Guides the pellets Into a channel conveyor. 345 00:19:03,379 --> 00:19:06,620 The conveyor takes The pellets into a furnace. 346 00:19:06,620 --> 00:19:11,034 Over 24 hours, the heat Removes pores in the pellets. 347 00:19:11,034 --> 00:19:14,827 The pellets shrink, increasing The density of the uranium. 348 00:19:14,827 --> 00:19:19,379 The particles fuse together And harden into a ceramic. 349 00:19:19,379 --> 00:19:22,448 Here's a pellet before And after baking. 350 00:19:24,689 --> 00:19:26,758 A robot arm now loads The pellets 351 00:19:26,758 --> 00:19:28,758 On to a tray and levels them. 352 00:19:31,551 --> 00:19:34,241 A conveyor moves The tray forward. 353 00:19:34,241 --> 00:19:39,413 Ahead, another robot places Zirconium fuel tubes on a rack. 354 00:19:39,413 --> 00:19:41,896 Zirconium is a metal That's highly resistant 355 00:19:41,896 --> 00:19:44,310 To both heat and corrosion, 356 00:19:44,310 --> 00:19:46,758 But neutrons will pass Freely through it 357 00:19:46,758 --> 00:19:48,620 During the fission reaction. 358 00:19:48,620 --> 00:19:51,137 The rack of tubes meet up 359 00:19:51,137 --> 00:19:54,724 With a tray of incoming pellets. 360 00:19:54,724 --> 00:19:56,655 A robotic loader pushes The stack 361 00:19:56,655 --> 00:19:58,793 Of 30 pellets into the tube. 362 00:20:01,482 --> 00:20:04,655 Another robot delivers The rods one at a time 363 00:20:04,655 --> 00:20:07,689 To an automated welder That caps the ends. 364 00:20:11,241 --> 00:20:15,034 The next robot retrieves The completed uranium fuel rods 365 00:20:15,034 --> 00:20:17,931 And transfers it To an assembly fixture. 366 00:20:21,275 --> 00:20:23,896 It arranges a total of 37 rods 367 00:20:23,896 --> 00:20:26,517 In an upright position Within the fixture. 368 00:20:33,448 --> 00:20:35,206 After the rods Have been welded 369 00:20:35,206 --> 00:20:37,310 And the bundle capped At both ends, 370 00:20:37,310 --> 00:20:40,896 A robot transfers it to a scale. 371 00:20:40,896 --> 00:20:42,586 This weigh-in confirms 372 00:20:42,586 --> 00:20:45,655 That there is the correct amount Of uranium in the bundle. 373 00:20:48,275 --> 00:20:50,413 Prior to burn up in a reactor, 374 00:20:50,413 --> 00:20:54,103 The amount of radioactivity Emitted by nuclear fuel bundles 375 00:20:54,103 --> 00:20:56,517 Is very low, And they're safe to handle 376 00:20:56,517 --> 00:21:00,103 As workers prepare them For shipping. 377 00:21:00,103 --> 00:21:02,379 They're now on their way To the power plant, 378 00:21:02,379 --> 00:21:05,103 Where they'll be sure To generate a reaction. 29821