tubular solar still (destilador solar)
TRANSCRIPT
![Page 1: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/1.jpg)
Department of Architecture & Civil Engineering
University of Fukui, JAPAN
Presented by:
Prof. Dr. T. FukuharaProf. Dr. T. Fukuhara
Production Model of TSS Production Model of TSS Based on Condensation TheoryBased on Condensation Theory
CONF. IV ISES & XVII SPESCONF. IV ISES & XVII SPESNovember 1~5, 2010, Cusco, PeruNovember 1~5, 2010, Cusco, Peru
Environmental Heat and Hydraulics Lab.
TTubular ubular SSolar olar SStill (TSS) ?till (TSS) ?
Using Solar EnergySun
Saline water Distilled water
![Page 2: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/2.jpg)
CONTENTS
Environmental Heat and Hydraulics Lab.
1. INTRODUCTION
2. PRODUCTION MECHANISM OF TSS
3. THEORY OF CONDENSATION
4. INDOOR EXPERIMENTS
5. FIELD EXPERIMENTS
6. CONCLUSIONS
![Page 3: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/3.jpg)
• Remote and arid areas
• After natural disaster
(tsunami, tornado, etc.)
Desalination
- Solar distillation
1. INTRODUCTION
Tubular Solar Still (TSS)
(We developed)Easy fabrication, set-up & maintenance
Shortage of drinking
water
Fig. Women collecting drinking Water (Bangladesh)
Fig. People collecting water from nearly dried-up well (Nigeria)
Fig. Women transporting drinking water (Sudan)Fig. Unsafe water source due to
tsunami
Environmental Heat and Hydraulics Lab.
ElectricityElectricity TransportatioTransportationn
RORO In developing/In developing/
under developing under developing countriescountries MSFMSF MEDMED EDED
![Page 4: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/4.jpg)
Water troubles in Bangladesh
Red paintA hand pump well contaminated by arsenicarsenic
35 million people (1/4 of population ) danger of diseases due to arsenic
![Page 5: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/5.jpg)
Diseases caused by arsenicDiseases caused by arsenic
KeratosiKeratosiss
GangrenGangren
CancerCancer
MelanosisMelanosis
![Page 6: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/6.jpg)
Safe area
Iso-concentration of Chloride ion (Cl- )
Drinking Water Standard:
200 mg/L200 mg/L(Critical value of Japanese standard)
![Page 7: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/7.jpg)
50km
Prediction of sea water intrusion due to Prediction of sea water intrusion due to rise in sea water table rise in sea water table (( from IPCCfrom IPCC))
![Page 8: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/8.jpg)
Pond water for drinking purpose
Small volume and high turbidity at the end of dry season
![Page 9: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/9.jpg)
Pond sand filter( PSF)
Pumping up pond water to PSF with a hand pump
Hand pump well
Sand filterSand filter
![Page 10: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/10.jpg)
Woman pumping up pond waterpond water to PSF with a hand pump
A lot of women must wait for 2-3 hours2-3 hours to get water!
Drawing water is the duty of womenduty of women.
![Page 11: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/11.jpg)
I t takes 30 minutes to fill a vessel of 10L
Some people come from 16km away.
Small rate of water from PSF
![Page 12: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/12.jpg)
Many people like her cannot stand waiting for good water.
Take water directlydirectly from pond.
People also use pond water for daily life.
Reason:Reason: 240 PSFs for 240,000240 PSFs for 240,000 peoplepeople
![Page 13: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/13.jpg)
Practical purposePractical purpose Solar desalinationSolar desalination facility for on-site usage facility for on-site usage
with with low costlow cost and and easy maintenanceeasy maintenance
Non CO2 emissionNon CO2 emission
・・・・・・ Suitable for developing Suitable for developing countriescountries
長距離水輸送長距離水輸送
Power plantPower plant Large scaleLarge scale desalination plantdesalination plant
Small sizeSmall size On-site usageOn-site usage
COCO22
海水
Sun
F.W.F.W. Near
CO2Sea water
Long transportation
![Page 14: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/14.jpg)
1. INTRODUCTION (Cont..)
Environmental Heat and Hydraulics Lab.
Objectives of this paper:
1. Propose a production model based on a condensation theory for a TSS.
2. To use a new overall heat transfer coefficient between the humid and ambient air in the proposed model.
3. Verification of the proposed model by comparing indoor and field experimental data.
![Page 15: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/15.jpg)
2. PRODUCTION MECHANISM OF TSS
Fig. Production Principle of TSS
Environmental Heat and Hydraulics Lab.
(Production)(Production)
![Page 16: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/16.jpg)
Environmental Heat and Hydraulics Lab.
Conventional production modelsConventional production models for basin type still based on for basin type still based on evaporation theory.evaporation theory.
-
Evaporation Condensation ProductionEvaporation Condensation Production
Theory of condensationTheory of condensation may give a better resulta better result than past evaporation theories.
Conventional production modelsConventional production models
A time lagA time lag
Present modelPresent model
2. PRODUCTION MECHANISM OF TSS
New & unique New & unique modelmodel
No theory of condensation for solar stills RHha
Tha
Inside TSS Outside TSS
![Page 17: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/17.jpg)
3. THEORY OF CONDENSATION
Fig. Condensate liquid film & gravity force at point PFig. Condensate liquid film & gravity force at point PEnvironmental Heat and Hydraulics Lab.
Humid air
Condensate flow
Production
θ=π
θ=π/2
( - )gρ ρl vha
Radial ( ) direction
r
P
o
θ=0
θ θ
Angular ( ) direction
( )
θ
ρ ρ θl vha- gsin
Water
g
δδ is gradually Increases in downward dir. small
element
WaterWater
![Page 18: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/18.jpg)
δ
vθ
Axial () dir.x
Angular ( ) dir.
δθ()Velocity profile
Liquid film
Humid air
θ+dθ
θ
Cover
rr=R
r=R- δ
dx=1
δ
δ+dδ ds=Rd θ
Fig. Representative element of liquid film flowFig. Representative element of liquid film flowEnvironmental Heat and Hydraulics Lab.
InterfaceInterface
3. THEORY OF CONDENSATION (Cont..)
AtmosphereAtmosphere
Liquid Liquid filmfilm
Humid Humid airair
CoverCover
( ) θδ dR − ( )θδ
θV
θ
![Page 19: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/19.jpg)
Fig. Temperature profile Fig. Heat & mass transferFig. Temperature profile Fig. Heat & mass transferEnvironmental Heat and Hydraulics Lab.
dq
dq
dq=h d( )fg m
dm
q .dss
m+dm
m( )θ
ds=Rdθ
Cover
LiquidfilmHumid air
Interface
h T -o ha( )T .dsa
Atmosphere
rRR-δ
.
...
..
..
δ
R-δ Rr
δ ha
TcTha’Tha
δ
ds = R- d’ ( )δ θ
Humidair
Liquidfilm
.
3. THEORY OF CONDENSATION (Cont..)
i
AtmosphereAtmosphere
CoverCover
Liquid Liquid filmfilm
Humid Humid airair
RR δ−
![Page 20: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/20.jpg)
3. THEORY (Cont..)
Energy equation: in a steady stateEnergy equation: in a steady state
Momentum equation: in a steady stateMomentum equation: in a steady state
01
2
2
=+dr
dT
rdr
Td
( ) 0sin1
22
2
=−+
−+ θρρ
µθθθ
vhall
g
r
v
dr
dv
rdr
vd
Environmental Heat and Hydraulics Lab.
Refer to the paperRefer to the paper for assumptions and BC
![Page 21: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/21.jpg)
3. THEORY (Cont..)Energy Eq.Energy Eq.
Environmental Heat and Hydraulics Lab.
Fourier’s Fourier’s LawLaw
01
2
2
=+dr
dT
rdr
Td Integrate using BC
hl
δλ
−=
−=Rr
ls dr
dTq
)(
)(1
θδλγ cihal
sTT
q−= Apparent
heat flux
)(
)(2 θδ
λγγ cihalcss
TTqq
−==Actual heat flux Using local
HTC )( cihals TThq −= ( )θδ
λγ lclh =
1'
1 <−−=
ciha
ciha
TT
TTγ 21γγγ =cArea fractio
n
Temp. correction coefficient Condensatio
n coefficient
12 <=tc
nc
A
Aγ
![Page 22: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/22.jpg)
4/1
2/tan
2/tanln4)(
=
o
Aθθθδ
3. THEORY (Cont..)Momentum Momentum
Eq.Eq.
Environmental Heat and Hydraulics Lab.
Mass flow/Mass flow/LL
Integrate using BC
Film thicknes
s
Local HTC ( )θδλγ lc
lh =
( ) 0sin1
22
2
=−+
−+ θρρ
µθθθ
vhall
g
r
v
dr
dv
rdr
vddrvm
R
Rl∫ −
=δ θρθ )(
mdhdsqqd fgs =⋅=Heat flow/Heat flow/LL
fgvhall
cihallc
hg
TTDA
)(2
)(
ρρρµλγ
−−
=
RD 2=
)( o1
1
o
θθ
θθ
θ
−=
∫ dhh
l
c
Average HTC
Humid air
Condensate flow
Production
θ=π(= )1θ
θ=π/2
Radial ( ) direction
r
P
o
θ=0(= )οθ
θ θ
- g( )ρ l vhaρ
Angular ( ) direction
( )
θ
ρ l vha- gsinρ θ
Water
g
δ
dq
dq
dq=h d( )fg m
dm
q .dss
m+dm
m( )θ
ds=Rdθ
Cover
LiquidfilmHumid air
Interface
h T -o ha( )T .dsa
Atmosphere
rRR-δ
.
...
..
..
δ
R-δ Rr
δ ha
TcTha’Tha
δ
ds = R- d’ ( )δ θ
Humidair
Liquidfilm
.
( )θδ
![Page 23: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/23.jpg)
3. THEORY (Cont..)
Average Average HTCHTC
Environmental Heat and Hydraulics Lab.
A new overall A new overall HTCHTC
m4/13
4
3
)(
)(996.0
−−
=cihal
lfgvhallcc TTD
hgh
µλρρρ
γ
)()( cihacahao TThTTh −=−
Mass fluxMass flux
3
1
333
33
4
)()(996.0
−−
=
ahalvhall
fglc
TTag
Dhm
λρρρµ
γ
fgahao hTThm /)( −=
Temp. difference Temp. difference fractionfraction
Constant≈−−=
aha
ciha
TT
TTa
CondensatiCondensation on
coefficientcoefficient
Indoor Expt.Indoor Expt.
Indoor Expt.Indoor Expt.
dq
dq
dq=h d( )fg m
dm
q .dss
m+dm
m( )θ
ds=Rdθ
Cover
LiquidfilmHumid air
Interface
h T -o ha( )T .dsa
Atmosphere
rRR-δ
.
...
..
..
δ
R-δ Rr
δ ha
TcTha’Tha
δ
ds = R- d’ ( )δ θ
Humidair
Liquidfilm
.
i Atmosphere
Ta
RR δ−
δ
![Page 24: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/24.jpg)
4. INDOOR EXPERIMENTS
Fig. Schematic diagram of indoor experimentEnvironmental Heat and Hydraulics Lab.
Experimental Conditions
Ta :15, 20,25,30 & 35oC
RHa : 35%
Rs :1200,800,500W/m2
Expt. duration: 8 hrs.
Water depth: 45mm(to measure evaporation)
Evaporation
Evaporation
Distilled water(Production)
Production
![Page 25: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/25.jpg)
0 5 1 0 1 5 20 25 30 35 40 450
5
1 0
1 5
20
(Tha-Tci)= a(Tha-Ta) a=
Tha-Ta
T ha-T c
i
0.375
Tem perature d ifference, (K )
Tem
pera
ture
dif
fere
nce, (
K)
Fig. Relation between (Tha-Tci) and (Tha-Ta)
Environmental Heat and Hydraulics Lab.
4. INDOOR EXPERIMENTS - RESULTS
![Page 26: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/26.jpg)
0.75 0.8 0.85 0.9 0.95 10
3
6
9
1 2
1 5
D ry air pressure fraction,
Condensati
on c
oeff
icie
nt,
= 0.0005-0.00046( )
ea/eo
γc
γ c
ea/eo
[ 1 0× -5]
Fig. Relation between γc and ea/eo
ea=eo-evha
evha=f(Tha, RHha)
eo=101325Pa
Environmental Heat and Hydraulics Lab.
4. INDOOR EXPERIMENTS - RESULTS
RHha<< 100%
![Page 27: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/27.jpg)
Fig. Diurnal variations of T and RH (Fukui, 2005)Environmental Heat and Hydraulics Lab.
RHRHhaha≈ ≈ 50% 50% during daytimeduring daytime
RHha
5. FIELD EXPERIMENTS - RESULTS
UnsaturatedUnsaturatedTha
Ta
![Page 28: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/28.jpg)
Fig. Diurnal variations of observed ph and calculated mh
Environmental Heat and Hydraulics Lab.
Sep 29
Oct 6
5. FIELD EXPERIMENTS - RESULTS
No time No time laglag
![Page 29: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/29.jpg)
6. CONCLUSIONS
Environmental Heat and Hydraulics Lab.
1. A production model based on condensation theory for a TSS is developed.
2. The condensation coefficient,
3. The condensation theory using ho could provide a good agreement with laboratory experimental data.
4. The validity of the model is evaluated from the comparison with field experimental result.
5. The condensation theory can be used to preciselypredict the production flux.
∝
o
ac e
e/1γ
![Page 30: Tubular Solar Still (Destilador solar)](https://reader033.vdocuments.mx/reader033/viewer/2022042518/55a336d51a28ab19328b45c9/html5/thumbnails/30.jpg)
Muchas gracias