How we can turn the cold of outer space into a renewable resource | Aaswath Raman

505,805 views

2018-06-22 ・ TED


New videos

How we can turn the cold of outer space into a renewable resource | Aaswath Raman

505,805 views ・ 2018-06-22

TED


Please double-click on the English subtitles below to play the video.

00:13
Every summer when I was growing up,
0
13571
2015
00:15
I would fly from my home in Canada to visit my grandparents,
1
15610
3382
00:19
who lived in Mumbai, India.
2
19016
1800
00:21
Now, Canadian summers are pretty mild at best --
3
21157
3134
00:24
about 22 degrees Celsius or 72 degrees Fahrenheit
4
24315
3707
00:28
is a typical summer's day, and not too hot.
5
28046
2620
00:31
Mumbai, on the other hand, is a hot and humid place
6
31276
3039
00:34
well into the 30s Celsius or 90s Fahrenheit.
7
34339
3218
00:38
As soon as I'd reach it, I'd ask,
8
38364
1586
00:39
"How could anyone live, work or sleep in such weather?"
9
39974
4410
00:45
To make things worse, my grandparents didn't have an air conditioner.
10
45539
3646
00:49
And while I tried my very, very best,
11
49768
2825
00:52
I was never able to persuade them to get one.
12
52617
2754
00:56
But this is changing, and fast.
13
56220
3095
00:59
Cooling systems today collectively account for 17 percent
14
59914
4341
01:04
of the electricity we use worldwide.
15
64279
2373
01:06
This includes everything from the air conditioners
16
66676
2394
01:09
I so desperately wanted during my summer vacations,
17
69094
2777
01:11
to the refrigeration systems that keep our food safe and cold for us
18
71895
3610
01:15
in our supermarkets,
19
75529
1231
01:16
to the industrial scale systems that keep our data centers operational.
20
76784
4252
01:21
Collectively, these systems account for eight percent
21
81624
3485
01:25
of global greenhouse gas emissions.
22
85133
2250
01:27
But what keeps me up at night
23
87823
1611
01:29
is that our energy use for cooling might grow sixfold by the year 2050,
24
89458
4921
01:34
primarily driven by increasing usage in Asian and African countries.
25
94403
4281
01:39
I've seen this firsthand.
26
99284
1698
01:41
Nearly every apartment in and around my grandmother's place
27
101006
3158
01:44
now has an air conditioner.
28
104188
2024
01:46
And that is, emphatically, a good thing
29
106236
3047
01:49
for the health, well-being and productivity
30
109307
2699
01:52
of people living in warmer climates.
31
112030
2645
01:55
However, one of the most alarming things about climate change
32
115831
3943
01:59
is that the warmer our planet gets,
33
119798
2595
02:02
the more we're going to need cooling systems --
34
122417
2312
02:04
systems that are themselves large emitters of greenhouse gas emissions.
35
124753
3759
02:09
This then has the potential to cause a feedback loop,
36
129236
3333
02:12
where cooling systems alone
37
132593
1458
02:14
could become one of our biggest sources of greenhouse gases
38
134075
2987
02:17
later this century.
39
137086
1342
02:18
In the worst case,
40
138735
1178
02:19
we might need more than 10 trillion kilowatt-hours of electricity every year,
41
139937
3620
02:23
just for cooling, by the year 2100.
42
143581
2688
02:26
That's half our electricity supply today.
43
146846
2865
02:30
Just for cooling.
44
150198
1150
02:32
But this also point us to an amazing opportunity.
45
152862
3915
02:37
A 10 or 20 percent improvement in the efficiency of every cooling system
46
157444
4569
02:42
could actually have an enormous impact on our greenhouse gas emissions,
47
162037
3484
02:45
both today and later this century.
48
165545
2465
02:50
And it could help us avert that worst-case feedback loop.
49
170080
3549
02:54
I'm a scientist who thinks a lot about light and heat.
50
174928
3680
02:58
In particular, how new materials allow us to alter the flow
51
178632
3596
03:02
of these basic elements of nature
52
182252
2016
03:04
in ways we might have once thought impossible.
53
184292
2642
03:07
So, while I always understood the value of cooling
54
187315
2413
03:09
during my summer vacations,
55
189752
1944
03:11
I actually wound up working on this problem
56
191720
2263
03:14
because of an intellectual puzzle that I came across about six years ago.
57
194007
4006
03:19
How were ancient peoples able to make ice in desert climates?
58
199149
5617
03:25
This is a picture of an ice house,
59
205894
2936
03:28
also called a Yakhchal, located in the southwest of Iran.
60
208854
3627
03:33
There are ruins of dozens of such structures throughout Iran,
61
213006
3754
03:36
with evidence of similar such buildings throughout the rest of the Middle East
62
216784
3690
03:40
and all the way to China.
63
220498
1214
03:42
The people who operated this ice house many centuries ago,
64
222228
3190
03:45
would pour water in the pool you see on the left
65
225442
2484
03:47
in the early evening hours, as the sun set.
66
227950
3072
03:51
And then something amazing happened.
67
231046
1809
03:53
Even though the air temperature might be above freezing,
68
233442
2762
03:56
say five degrees Celsius or 41 degrees Fahrenheit,
69
236228
3698
03:59
the water would freeze.
70
239950
1534
04:02
The ice generated would then be collected in the early morning hours
71
242724
4135
04:06
and stored for use in the building you see on the right,
72
246883
2635
04:09
all the way through the summer months.
73
249542
1936
04:12
You've actually likely seen something very similar at play
74
252133
2719
04:14
if you've ever noticed frost form on the ground on a clear night,
75
254876
3452
04:18
even when the air temperature is well above freezing.
76
258352
2745
04:21
But wait.
77
261121
1160
04:22
How did the water freeze if the air temperature is above freezing?
78
262305
3731
04:26
Evaporation could have played an effect,
79
266487
1926
04:28
but that's not enough to actually cause the water to become ice.
80
268437
3315
04:32
Something else must have cooled it down.
81
272064
2086
04:34
Think about a pie cooling on a window sill.
82
274761
2548
04:37
For it to be able to cool down, its heat needs to flow somewhere cooler.
83
277619
3611
04:41
Namely, the air that surrounds it.
84
281254
1904
04:44
As implausible as it may sound,
85
284180
2310
04:46
for that pool of water, its heat is actually flowing to the cold of space.
86
286514
5376
04:54
How is this possible?
87
294085
1722
04:56
Well, that pool of water, like most natural materials,
88
296434
3572
05:00
sends out its heat as light.
89
300030
2150
05:02
This is a concept known as thermal radiation.
90
302506
2817
05:05
In fact, we're all sending out our heat as infrared light right now,
91
305792
4468
05:10
to each other and our surroundings.
92
310284
1928
05:12
We can actually visualize this with thermal cameras
93
312608
2469
05:15
and the images they produce, like the ones I'm showing you right now.
94
315101
3246
05:18
So that pool of water is sending out its heat
95
318744
2262
05:21
upward towards the atmosphere.
96
321030
1682
05:23
The atmosphere and the molecules in it
97
323379
2095
05:25
absorb some of that heat and send it back.
98
325498
2555
05:28
That's actually the greenhouse effect that's responsible for climate change.
99
328077
3822
05:32
But here's the critical thing to understand.
100
332435
2523
05:34
Our atmosphere doesn't absorb all of that heat.
101
334982
3200
05:38
If it did, we'd be on a much warmer planet.
102
338577
2934
05:41
At certain wavelengths,
103
341982
1508
05:43
in particular between eight and 13 microns,
104
343514
3452
05:46
our atmosphere has what's known as a transmission window.
105
346990
3762
05:51
This window allows some of the heat that goes up as infrared light
106
351402
5517
05:56
to effectively escape, carrying away that pool's heat.
107
356943
3333
06:00
And it can escape to a place that is much, much colder.
108
360895
3770
06:05
The cold of this upper atmosphere
109
365633
1968
06:07
and all the way out to outer space,
110
367625
1674
06:09
which can be as cold as minus 270 degrees Celsius,
111
369323
3810
06:13
or minus 454 degrees Fahrenheit.
112
373157
2720
06:17
So that pool of water is able to send out more heat to the sky
113
377242
3364
06:20
than the sky sends back to it.
114
380630
1771
06:22
And because of that,
115
382425
1150
06:23
the pool will cool down below its surroundings' temperature.
116
383599
3016
06:28
This is an effect known as night-sky cooling
117
388035
3516
06:31
or radiative cooling.
118
391575
1400
06:33
And it's always been understood by climate scientists and meteorologists
119
393369
3454
06:36
as a very important natural phenomenon.
120
396847
2600
06:40
When I came across all of this,
121
400879
1492
06:42
it was towards the end of my PhD at Stanford.
122
402395
2642
06:45
And I was amazed by its apparent simplicity as a cooling method,
123
405061
4429
06:49
yet really puzzled.
124
409514
1266
06:51
Why aren't we making use of this?
125
411284
2200
06:54
Now, scientists and engineers had investigated this idea
126
414744
2881
06:57
in previous decades.
127
417649
1238
06:58
But there turned out to be at least one big problem.
128
418911
3288
07:02
It was called night-sky cooling for a reason.
129
422879
2872
07:06
Why?
130
426109
1174
07:07
Well, it's a little thing called the sun.
131
427307
2369
07:10
So, for the surface that's doing the cooling,
132
430157
2460
07:12
it needs to be able to face the sky.
133
432641
2174
07:14
And during the middle of the day,
134
434839
1628
07:16
when we might want something cold the most,
135
436491
3150
07:19
unfortunately, that means you're going to look up to the sun.
136
439665
2896
07:22
And the sun heats most materials up
137
442585
1856
07:24
enough to completely counteract this cooling effect.
138
444465
2757
07:28
My colleagues and I spend a lot of our time
139
448409
2008
07:30
thinking about how we can structure materials
140
450441
2112
07:32
at very small length scales
141
452577
1412
07:34
such that they can do new and useful things with light --
142
454013
3326
07:37
length scales smaller than the wavelength of light itself.
143
457363
2990
07:40
Using insights from this field,
144
460377
1580
07:41
known as nanophotonics or metamaterials research,
145
461981
3128
07:45
we realized that there might be a way to make this possible during the day
146
465133
3500
07:48
for the first time.
147
468657
1173
07:49
To do this, I designed a multilayer optical material
148
469854
3056
07:52
shown here in a microscope image.
149
472934
1857
07:54
It's more than 40 times thinner than a typical human hair.
150
474815
3381
07:58
And it's able to do two things simultaneously.
151
478220
2518
08:01
First, it sends its heat out
152
481169
1825
08:03
precisely where our atmosphere lets that heat out the best.
153
483018
3802
08:06
We targeted the window to space.
154
486844
2133
08:09
The second thing it does is it avoids getting heated up by the sun.
155
489519
3431
08:12
It's a very good mirror to sunlight.
156
492974
2400
08:16
The first time I tested this was on a rooftop in Stanford
157
496315
2714
08:19
that I'm showing you right here.
158
499053
1762
08:21
I left the device out for a little while,
159
501339
2381
08:23
and I walked up to it after a few minutes,
160
503744
3071
08:26
and within seconds, I knew it was working.
161
506839
2794
08:29
How?
162
509657
1158
08:30
I touched it, and it felt cold.
163
510839
1627
08:33
(Applause)
164
513395
4658
08:38
Just to emphasize how weird and counterintuitive this is:
165
518862
3984
08:42
this material and others like it
166
522870
1730
08:44
will get colder when we take them out of the shade,
167
524624
2905
08:47
even though the sun is shining on it.
168
527553
2360
08:49
I'm showing you data here from our very first experiment,
169
529937
2683
08:52
where that material stayed more than five degrees Celsius,
170
532644
2739
08:55
or nine degrees Fahrenheit, colder than the air temperature,
171
535407
3276
08:58
even though the sun was shining directly on it.
172
538707
2814
09:02
The manufacturing method we used to actually make this material
173
542855
3135
09:06
already exists at large volume scales.
174
546014
2534
09:08
So I was really excited,
175
548903
1157
09:10
because not only do we make something cool,
176
550084
3041
09:13
but we might actually have the opportunity to do something real and make it useful.
177
553149
5053
09:19
That brings me to the next big question.
178
559204
1913
09:21
How do you actually save energy with this idea?
179
561141
2587
09:23
Well, we believe the most direct way to save energy with this technology
180
563752
3658
09:27
is as an efficiency boost
181
567434
1659
09:29
for today's air-conditioning and refrigeration systems.
182
569117
3063
09:32
To do this, we've built fluid cooling panels,
183
572561
2159
09:34
like the ones shown right here.
184
574744
1571
09:36
These panels have a similar shape to solar water heaters,
185
576339
2667
09:39
except they do the opposite -- they cool the water, passively,
186
579030
2920
09:41
using our specialized material.
187
581974
2067
09:44
These panels can then be integrated with a component
188
584815
2460
09:47
almost every cooling system has, called a condenser,
189
587299
2568
09:49
to improve the system's underlying efficiency.
190
589891
3133
09:53
Our start-up, SkyCool Systems,
191
593367
1896
09:55
has recently completed a field trial in Davis, California, shown right here.
192
595287
3874
09:59
In that demonstration,
193
599649
1182
10:00
we showed that we could actually improve the efficiency
194
600855
3048
10:03
of that cooling system as much as 12 percent in the field.
195
603927
2924
10:07
Over the next year or two,
196
607474
1254
10:08
I'm super excited to see this go to its first commercial-scale pilots
197
608752
3904
10:12
in both the air conditioning and refrigeration space.
198
612680
3143
10:16
In the future, we might be able to integrate these kinds of panels
199
616260
3587
10:19
with higher efficiency building cooling systems
200
619871
3309
10:23
to reduce their energy usage by two-thirds.
201
623204
2802
10:26
And eventually, we might actually be able to build a cooling system
202
626030
3658
10:29
that requires no electricity input at all.
203
629712
2563
10:32
As a first step towards that,
204
632966
1516
10:34
my colleagues at Stanford and I
205
634506
1857
10:36
have shown that you could actually maintain
206
636387
2026
10:38
something more than 42 degrees Celsius below the air temperature
207
638437
4569
10:43
with better engineering.
208
643030
1388
10:45
Thank you.
209
645165
1150
10:46
(Applause)
210
646339
4055
10:51
So just imagine that --
211
651196
1151
10:52
something that is below freezing on a hot summer's day.
212
652371
3403
10:57
So, while I'm very excited about all we can do for cooling,
213
657927
4483
11:02
and I think there's a lot yet to be done,
214
662434
3254
11:05
as a scientist, I'm also drawn to a more profound opportunity
215
665712
3468
11:09
that I believe this work highlights.
216
669204
2016
11:11
We can use the cold darkness of space
217
671760
3135
11:14
to improve the efficiency
218
674919
1650
11:16
of every energy-related process here on earth.
219
676593
3254
11:21
One such process I'd like to highlight are solar cells.
220
681204
3317
11:24
They heat up under the sun
221
684934
1445
11:26
and become less efficient the hotter they are.
222
686403
2484
11:29
In 2015, we showed that with deliberate kinds of microstructures
223
689276
3877
11:33
on top of a solar cell,
224
693177
1547
11:34
we could take better advantage of this cooling effect
225
694748
2844
11:37
to maintain a solar cell passively at a lower temperature.
226
697616
3699
11:41
This allows the cell to operate more efficiently.
227
701708
2321
11:44
We're probing these kinds of opportunities further.
228
704627
2968
11:47
We're asking whether we can use the cold of space
229
707619
3245
11:50
to help us with water conservation.
230
710888
2079
11:53
Or perhaps with off-grid scenarios.
231
713316
2349
11:55
Perhaps we could even directly generate power with this cold.
232
715689
4167
12:00
There's a large temperature difference between us here on earth
233
720522
2953
12:03
and the cold of space.
234
723499
1690
12:05
That difference, at least conceptually,
235
725213
2128
12:07
could be used to drive something called a heat engine
236
727365
2594
12:09
to generate electricity.
237
729983
1190
12:11
Could we then make a nighttime power-generation device
238
731967
3603
12:15
that generates useful amounts of electricity
239
735594
2397
12:18
when solar cells don't work?
240
738015
1904
12:19
Could we generate light from darkness?
241
739943
2534
12:23
Central to this ability is being able to manage
242
743872
4389
12:28
the thermal radiation that's all around us.
243
748285
3111
12:31
We're constantly bathed in infrared light;
244
751420
2800
12:34
if we could bend it to our will,
245
754666
2452
12:37
we could profoundly change the flows of heat and energy
246
757142
2730
12:39
that permeate around us every single day.
247
759896
2733
12:43
This ability, coupled with the cold darkness of space,
248
763190
3341
12:46
points us to a future where we, as a civilization,
249
766555
3309
12:49
might be able to more intelligently manage our thermal energy footprint
250
769888
5238
12:55
at the very largest scales.
251
775150
1800
12:57
As we confront climate change,
252
777904
2214
13:00
I believe having this ability in our toolkit
253
780142
2603
13:02
will prove to be essential.
254
782769
1800
13:05
So, the next time you're walking around outside,
255
785428
3198
13:08
yes, do marvel at how the sun is essential to life on earth itself,
256
788650
6344
13:15
but don't forget that the rest of the sky has something to offer us as well.
257
795018
4676
13:20
Thank you.
258
800533
1151
13:21
(Applause)
259
801708
4110
About this website

This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.

https://forms.gle/WvT1wiN1qDtmnspy7