black holes, gravity, and information theory abstract a particle physicist looks at new ideas about...
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Black Holes, Gravity, and Information Theory
ABSTRACT
A particle physicist looks at new ideas about black holes and gravity. Already with some successful verification, the new ideas challenge long accepted views about the nature of the world. Disclaimer: these ideas are not due to me, I am just an experimentalist trying to make some sense of them.
Schools of Natural Science and Engineering, University of California Merced Director, California Advanced Solar Technologies Institute (UC Solar)
[email protected]://ucsolar.org
Roland Winston
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Nonimaging Optics 3
Black Hole Thermodynamics Informs Solar Energy Conversion
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S. Chandrasekhar, the most distinguished astrophysicist of the 20th centurydiscovered that massive stars collapse (neutron stars, even black hole)
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Nonimaging Optics 5
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Nonimaging Optics 6
Invention of the Second Law of Thermodynamics by Sadi Carnot
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Invention of Entropy(The Second Law of Thermodynamics)
• Sadi Carnot had fought with Napoleon, but by 1824 was a student studying physics in Paris. In that year he wrote:
• Reflections on the Motive Power of Heat and on Machines fitted to Develop that Power.
• The conservation of energy (the first law of thermodynamics) had not yet been discovered, heat was considered a conserved fluid-”caloric”
• So ENTROPY (the second law of thermodynamics) was discovered first.
• A discovery way more significant than all of Napoleon’s conquests! (personal bias)
Nonimaging Optics 7
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Nonimaging Optics 9
TdS = dE + PdV is arguably the most important equation in ScienceIf we were asked to predict what currently accepted principle would be valid 1,000 years from now,The Second Law would be a good bet (personal bias)From this we can derive entropic forces F = T grad SThe S-B radiation law (const. )Information theory (Shannon, Gabor)Accelerated expansion of the UniverseEven Gravity!And much more modestly----The design of thermodynamically efficient optics
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BLACK HOLE THERMODYNAMICSThe Horizon from which light can’t escape
) = G is Newton’s gravitational constant Change to and hope for the bestAt least the units are right, and so is the value!
THE SCHARZSCHILD RADIUS
Is this some exotic place, out of Star Trek?
The fact is, we could be at the horizon and not even notice!Just place a sufficient mass at the center of the Milky way (~ 27,000 LY from us)M = Rc2/2G
compared to terrestrial g ~
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PLANCK AREA = kT per degree of freedom ½N = number of degrees of freedom = A/Ap = Total Energy = kT ½
Finding the temperature
Stephen HawkingJacob BekensteinJohn WheelerMax Planck
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= 1 pixel on horizon surface or 1 bit of information –Holographic Principle t’Hooft1 planck area = 2.61209 × 10-70 m2
Gerardus 't Hooft
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Erik Verlinde (Spinoza Prize 2011) lecturing at the Perimeter Institute 5.12.2010 Home of Lee Smolin and colleagues
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= one degree of freedom on horizon surface (1 pixel) All information is stored on this surface (holographic principle, ‘t Hooft)Equipartition of normal matter N = number of degrees of freedom Finding the temperatureLater we will need =
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Deriving the Black Hole entropy purely from thermodynamics
Build up the black hole my adding mass in small increments
Use the second law
Recall , so
(we recover Hawking’s factor of 4)
----------------------------------------------------------------------------------I was so happy with his result, I emailed it to our “cosmo club” last NovemberEven Eli Yablonovitch (UC Berkeley) liked it!
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Entropy of a string of zero’s and one’s0111001010111000011101011010101The connection between entropy and the information is well known. The entropy of a system measures one’s uncertainty or lack of information about the actual internal configuration of the system, suppose that all that is known about the internal configuration of a system is that it may be found in any of a number of states with probability for the nth state. Then the entropy associated with the system is given by Shannon’s formula:
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Nonimaging Optics 17
S = k ( ln2) N or as modified by HawkingS = k(1/4) N for a Black Hole
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On board the rocket ship 0111001010111000011101011010101
Further away 0 1 1 1 0 0 1 0 1 0 1 1 1 0 0 0 0 1 1 1 0 1 0 1 1 Still further away 0 1 1 1 0 0 1Still further 0 1 1 1
Finally, behind the horizon goodbye
As we fall into the death star, information we send decreases due to red shiftLike the lower frequency of the horn sound from a receeding train
“Gravity is moving information around” Erik Verlinde
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Information content of the world
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Notice Shannon’s entropy maximizes for all Pn = ½ (total ignorance) Maximum S/k = N log 2 where N is the number of bits. So 1 bit (1 degree of freedom) is log 2 of information.
Seth Lloyd was Lin Tian’s advisor
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Acceleration of the WorldFrom (entropic force)direction of an entropic force is increase or (recall ) (outward to horizon) “Pressure” (~ ) = (Hubble radius) ~ c LY
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Connection with Unruh Temperature• At horizon) • a = 0.5 c2/ = 5/LY ~ 5/13.7 ~• kT = /(4R) • T ~ Kelvin At (horizon)
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Some scaling lawsT ~ Ra ~ RN ~ S ~
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From G. Smoot et al, 2010
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George Smoot, Nobel Prize 2006,$1M quiz show prize Are You Smarter than a 5th Grader? 2009
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EPILOGUE
In case you have been wondering, WHERE IS UC MERCED???
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Where we are
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Thank you…
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Thermodynamically Efficient Solar Concentration
ABSTRACT
Thermodynamically efficient optical designs are dramatically improving the performance and cost effectiveness of solar concentrating and illumination systems.
Schools of Natural Science and Engineering, University of California Merced Director, California Advanced Solar Technologies Institute (UC Solar)
[email protected]://ucsolar.org
City University of Hong Kong 3/27/2012
Roland Winston
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1radiation
source 2 aperture
3 absorber
The general concentrator problem
Concentration C is defined as A2/A3
What is the “best” design?
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1radiation
source 2 aperture
3 absorber
Characteristics of an optimal concentrator design
Let Source be maintained at T1 (sun)
Then will reach ↔ = 1
Proof: But = ≥ at steady state ≤ (second law)→=1 ↔ =
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Summary:For a thermodynamically efficient design
1. ( where = probability of radiation from receiver to source) = 1
Second Law
2. C = where = probability of radiation from receiver to source
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I am frequently asked- Can this possibly work?
Nonimaging Optics 33
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How?• Non-imaging optics:
– External Compound Parabolic Concentrator (XCPC)
– Non-tracking– Thermodynamically
efficient– Collects diffuse sunlight
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The Design: Solar Collectors
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Power Output of the Solar Cooling System
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b2u SolarDelivering BTUs from the
Sun
The Best Use of our Sun
[email protected]@b2usolar.comwww.b2usolar.com
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Demonstrated Performance
10kW test loop NASA/AMES
10kW Array Gas Technology Institute
Conceptual TestingSolFocus & UC Merced
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Hospital in India
Roland, I hope Shanghai went well Hit 200C yesterday with just 330W DNI. Gary D. Conley~Ancora Imparo www.b2uSolar.com
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Sun-Therm Collector
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EPILOGUE
In case you have been wondering, WHERE IS UC MERCED???
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Where we are
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Thank You
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Nonimaging Optics 49
What is the best efficiency possible? When we pose this question, we are
stepping outside the bounds of a particular subject. Questions of this kind are
more properly the province of thermodynamics which imposes limits on the
possible, like energy conservation and the impossible, like transferring heat from
a cold body to a warm body without doing work. And that is why the fusion of
the science of light (optics) with the science of heat (thermodynamics), is where
much of the excitement is today. During a seminar I gave some ten years ago at
the Raman Institute in Bangalore, the distinguished astrophysicist Venkatraman
Radhakrishnan famously asked “how come geometrical optics knows the second
law of thermodynamics?” This provocative question from C. V. Raman’s son
serves to frame our discussion.
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Limits to Concentration• from l max sun ~ 0.5 m
we measure Tsun ~ 6000° (5670°)Without actually going to the Sun!
• Then from s T4 - solar surface flux~ 58.6 W/mm2
– The solar constant ~ 1.35 mW/mm2 – The second law of thermodynamics– C max ~ 44,000– Coincidentally, C max = 1/sin2q– This is evidence of a deep connection to optics
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1/sin2θ Law of Maximum Concentration
Nonimaging Optics 51
• The irradiance, of sunlight, I, falls off as 1/r2 so that at the orbit of earth, I2 is 1/sin2θ xI1, the irradiance emitted at the sun’s surface.
• The 2nd Law of Thermodynamics forbids concentrating I2 to levels greater than I1, since this would correspond to a brightness temperature greater than that of the sun.
• In a medium of refractive index n, one is allowed an additional factor of n2 so that the equation can be generalized for an absorber immersed in a refractive medium as
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During a seminar at the Raman Institute (Bangalore) in 2000,Prof. V. Radhakrishnan asked me:How does geometrical optics know the second law of thermodynamics?
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Nonimaging Optics 53
Invention of the Second Law of Thermodynamics by Sadi Carnot
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Invention of Entropy(The Second Law of Thermodynamics)
• Sadi Carnot had fought with Napoleon, but by 1824 was a student studying physics in Paris. In that year he wrote:
• Reflections on the Motive Power of Heat and on Machines fitted to Develop that Power.
• The conservation of energy (the first law of thermodynamics) had not yet been discovered, heat was considered a conserved fluid-”caloric”
• So ENTROPY (the second law of thermodynamics) was discovered first.
• A discovery way more significant than all of Napoleon’s conquests!
Nonimaging Optics 54
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Nonimaging Optics 55
is arguably the most important equation in ScienceIf we were asked to predict what currently accepted principle would be valid 1,000 years from now,The Second Law would be a good bet From this we can derive entropic forces F = T grad SThe S-B radiation law (const. )Information theory (Shannon, Gabor)Accelerated expansion of the UniverseEven Gravity!And much more modestly----The design of thermodynamically efficient optics
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Failure of conventional opticsPAB << PBA where PAB is the probability of radiation starting at A reaching B--- etc
Nonimaging Optics 56
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Nonimaging Concentrators• It was the desire to bridge the gap between the
levels of concentration achieved by common imaging devices, and the sine law of concentration limit that motivated the invention of nonimaging optics.
Nonimaging Optics 57
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First and Second Law of Thermodynamics
Nonimaging Optics is the theory of maximal efficiency radiative transfer
It is axiomatic and algorithmic based
As such, the subject depends much more on thermodynamics than on optics
To learn efficient optical design, first study the
theory of furnaces.`
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Chandra
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THE THEORY OF FURNACES
B1
B2
B3
B1
B2
B3
B4
P
Q
Q’
P’
(a) (b)
Radiative transfer between walls in an enclosure
HOTTEL STRINGSMichael F. Modest, Radiative Heat Transfer, Academic Press 2003
Hoyt C. Hottel, 1954, Radiant-Heat Transmission, Chapter 4 in William H. McAdams (ed.), Heat Transmission, 3rd ed. McGRAW-HILL
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Strings 3-walls
1
2
3
qij = AiPij
Pii = 0
P12 + P13 = 1P21 + P23 = 1 3 EqsP31 + P32 = 1
Ai Pij = Aj Pji 3 Eqs
P12 = (A1 + A2 – A3)/(2A1)
P13 = (A1 + A3 – A2)/(2A1)
P23 = (A2 + A3 – A1)/(2A2)
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Strings 4-walls
1
2
3
456
P14 = [(A5 + A6) – (A2 + A3)]/(2A1)P23 = [(A5 + A6) – (A1 + A4)]/(2A2)
P12 + P13 + P14 = 1P21 + P23 + P24 = 1
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Limit to Concentration
P23 = [(A5 + A6) – (A1 + A4)]/(2A2)SP23= sin( ) q as A3 goes to infinity• This rotates for symmetric systems to sin 2(q)
1
2
3
456
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String Method• We explain what strings are by way of
example. • We will proceed to solve the problem of
attaining the sine law limit of concentration for the simplest case, that of a flat absorber.
Nonimaging Optics 65
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String method deconstructed1. Choose source 2. Choose aperture
3. Draw strings 4. Work out
5. 6. Fit between extended strings => 2 degrees of freedom, Note that
7. Connect the strings. That’s all there is to it!
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String Method Example: CPC• We loop one end of a
“string” to a “rod” tilted at angle θ to the aperture AA’ and tie the other end to the edge of the exit aperture B’.
• Holding the length fixed, we trace out a reflector profile as the string moves from C to A’.
Nonimaging Optics 67
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String Method Example: CPC
Nonimaging Optics 68
2D concentrator with acceptance (half) angle
absorbing surface
slider
string
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String Method Example: CPC
Nonimaging Optics 69
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String Method Example: CPC
Nonimaging Optics 70
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String Method Example: CPC
Nonimaging Optics 71
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String Method Example: CPC
Nonimaging Optics 72
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String Method Example: CPC
Nonimaging Optics 73
stop here, because slope becomes infinite
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String Method Example: CPC
Nonimaging Optics 74
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String Method Example: CPC
Nonimaging Optics 75
Edge-ray wave fro
nt
BB’
A’ A
C
Compound Parabolic Concentrator (CPC)
(tilted parabola sections)
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String Method Example: CPC
Nonimaging Optics 76
sinA'AACBB'
A'BAB'
Α'ΒΒΒ'ΑCΑΒ'
'sin' BBAA
2sin
12)BB'
AA'(C(cone)
sin1
BB'
AA'C
sine law of concentration limit!
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String Method Example: CPC
• The 2-D CPC is an ideal concentrator, i.e., it works perfectly for all rays within the acceptance angle q,
• Rotating the profile about the axis of symmetry gives the 3-D CPC
• The 3-D CPC is very close to ideal.
Nonimaging Optics 77
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String Method Example: CPC
• Notice that we have kept the optical length of the string fixed.
• For media with varying index of refraction (n), the physical length is multiplied by n.
• The string construction is very versatile and can be applied to any convex (or at least non-concave) absorber…
Nonimaging Optics 78
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String Method Example: Tubular Absorber
• String construction for a tubular absorber as would be appropriate for a solar thermal concentrator.
Nonimaging Optics 79
' 1
2 sin
AAC
a
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String Method Example: Collimator for a Tubular Light Source
80
slider
tubularlight source
Rkind of “involute”
of the circle
étendueconserved
ideal design!
2R/sin
Nonimaging Optics
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Solar Energy Applications 81
Non-imaging Concentrator
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1radiation
source 2 aperture
3 absorber
The general concentrator problem
Concentration C is defined as A2/A3
What is the “best” design?
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1radiation
source 2 aperture
3 absorber
Characteristics of an optimal concentrator design
Let Source be maintained at T1 (sun)
Then will reach ↔ = 1
Proof: But = ≥ at steady state ≤ (second law)→=1 ↔ =
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84
Summary:For a thermodynamically efficient design
1. ( where = probability of radiation from receiver to source) = 1
Second Law
2. C = where = probability of radiation from receiver to source
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How?• Non-imaging optics:
– External Compound Parabolic Concentrator (XCPC)
– Non-tracking– Thermodynamically
efficient– Collects diffuse sunlight
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The Design: Solar Collectors
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Power Output of the Solar Cooling System
89
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b2u SolarDelivering BTUs from the
Sun
The Best Use of our Sun
[email protected]@b2usolar.comwww.b2usolar.com
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Demonstrated Performance
10kW test loop NASA/AMES
10kW Array Gas Technology Institute
Conceptual TestingSolFocus & UC Merced
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Hospital in India
Roland, I hope Shanghai went well Hit 200C yesterday with just 330W DNI. Gary D. Conley~Ancora Imparo www.b2uSolar.com
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I am frequently asked- Can this possibly work?
Nonimaging Optics 95
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EPILOGUE
In case you have been wondering, WHERE IS UC MERCED???
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Where we are
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99
Thank you…
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Highlight Project—Solar Thermal• UC Merced has developed the External Compound Parabolic
Concentrator (XCPC)
• XCPC features include:
– Non-tracking design– 50% thermal efficiency at 200°C– Installation flexibility– Performs well in hazy conditions
• Displaces natural gas consumption and reduces emissions
• Targets commercial applications such as double-effect absorption cooling, boiler preheating, dehydration, sterilization, desalination and steam extraction
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UC Merced 250°C Thermal Test Loop
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Testing• Efficiency (80 to 200 °C)• Optical Efficiency (Ambient temperature)• Acceptance Angle• Time Constant• Stagnation Test
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Acceptance Angle
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Power Output of the Solar Cooling System
108
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Comparison
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XCPC Applications• Membrane
Distillation• Heat Driven
Industrial Process
• Technology feasibility• Economic
Competitiveness• Market Potential• Time to
commercialization
• Absorption Chillers• Adsorption Chillers• Desiccant Cooling• Heat Driven Electrical
Power Generation• Steam Cycle Based
Products• Stirling Cycle Based
Products• Heat Driven Water
Treatment Technology
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b2u SolarDelivering BTUs from the
Sun
The Best Use of our Sun
[email protected]@b2usolar.comwww.b2usolar.com
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Demonstrated Performance
10kW test loop NASA/AMES
10kW Array Gas Technology Institute
Conceptual TestingSolFocus & UC Merced
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