Highly Efficient Nanofibrous Membranes based on Hierarchical … 2010... · 2011. 1. 17. · 0 100...
Transcript of Highly Efficient Nanofibrous Membranes based on Hierarchical … 2010... · 2011. 1. 17. · 0 100...
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Highly Efficient Nanofibrous Membranes based on Hierarchical
Nanofiber Structure
Benjamin S. Hsiao and Benjamin Chu
Departments of Chemistry
Stony Brook University
2010 Advanced Energy Conference
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Conventional water filtration membranes (since 70’s)
120 µm
40 µm
~ 0.2 µmRO/NF layerUF layerNon-woven MF support
http://www.dow.com
Size exclusion rangeRO (Reverse Osmosis): < 1 nmNF (Nano-Filtration): 1 – 10 nm
UF (Ultra-Filtration): 10 – 100 nmMF (Micro-Filtration): 0.1 – 50 µm
Aqueous salts: 0.3 – 1.2 nmPesticides, herbicides: 0.7 – 1.2 nm
Virus: 10 – 100 nmBacterial: 200 nm – 30 µm
0.03 – 0.40(Brackish water : 1000 – 5000 ppm salts;
Seawater : 35,000 ppm of salts)
70 – 400 (Brackish Water)
600 – 1200 (Seawater)RO
0.22 – 0.66 (e.g. 2000 ppm MgSO4)70 - 400NF
3 – 100 (pure water)15 – 150UF
Flux (l/m2h)Pressure (psi)
0.03 – 0.40(Brackish water : 1000 – 5000 ppm salts;
Seawater : 35,000 ppm of salts)
70 – 400 (Brackish Water)
600 – 1200 (Seawater)RO
0.22 – 0.66 (e.g. 2000 ppm MgSO4)70 - 400NF
3 – 100 (pure water)15 – 150UF
Flux (l/m2h)Pressure (psi)
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1 µm∼100 nm diameter fiber
0.02-1 µm thick5 nm fiber diameter
20 μm∼10 µm diameter fiberNew Concept: Nanofibrous Membranes with
Hierarchical Fiber Structure
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• Electro-spinning Conditions
- Flow rate : 20 µl/min- Electric Field Strength : 1.0 ~ 2.5 kV/cm
• Porosity Measurements
- Porosity (%) = (1- ρes/ρp) x 100ρes : electrospun membrane densityρp : polymer density
Porosity(%)
Average FiberDiameter
(nm)
PAN 12 PAN 8 PAN 6
86.285.989
1277
199153
10µm 10µm 10µm
PAN 6% PAN 8% PAN 12%
porosity change (3%) <<fiber diameter change by a factor of > 8
Fiber diameter has little effect on porosity
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volume fraction (%): ~ 80%- fibrous materials : ~ 20%
E-spun membrane
MultipleStacking
Laterally compress
WaterImpermeableSpace
WaterPermeableSpace
Incoming Water Flow
WaterImpermeableSpace
WaterPermeableSpace
Incoming Water Flow
Water flows only into empty space - Minimum flux reduction by
thickness increase
Essentially little effect of fiber diameter on porosity.
Incoming Water Flow
Porosity = 1- (volume of fiber)/(total volume) = 1 – (mat density)/(density of fiber)
Thickness of nanofibrous scaffold and porosity
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Low hydraulic resistance :Only 14% flux decrease by a factor of 5 in the thickness increase Pure water fluxes for PAN e-spun membrane (5~6 x 103 l/m2h) is 10 times higher than commercial PAN UF membranes ( 100 ~ 800 l/m2h)
Condition :20 psi inlet pressure,30 ~ 32 °CCross-flow
Low hydraulic resistance for nanofibrous support
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0 100 200 300 400 500 600 7000.0
0.5
1.0
1.5
Fiber diameter (nm)
Mea
n po
re s
ize
(µm
)
PAN PES PCLEEP Nylon-6 PEO PVA
•Lin K, Chua KN, Christopherson GT, Lim S, Mao, HQ. Polymer 2007; 48:6384-6394•Jin HJ, Fridrikh SV et al. Biomacromolecules 2002; 3: 1233-1239•Ryu YJ, Kim HY et al. European Polymer Journal 2003;39: 1883–1889
All solid points were obtained from Stonybrook Group, hollowpoints were from literatures
Pore size is about 3 times of the fiber diameter
0 200 400 600 800 1000 12000
1
2
3
4 PAN PES PCLEEP Nylon-6 PEO PVA
Mea
n po
re s
ize
(µm
)Fiber diameter (nm)
Relationship between pore size and fiber diameter
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Stony Brook’s precision multi-jet electrospinning process to fabricate nanofibrous membranes for
liquid filtration
• Instrumentation scalable to large production • Controlled environmental conditions (e.g. humidity, temperature)
to fabricate high quality nanofibrous scaffolds• Platform scaffolds suitable for MF, UF, NF, RO and FO
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Water with bacteria
Water without bacteria
Microfiltration to eliminate water borne diseases
Dysentery
Cholera
Typhoid
(0.4-0.6) µm X (1-3) µm
(0.5-0.8) µm X (1-3) µm
∼3.5 µm2 longitudinal area of rod x (0.7-1.5) µm
Bacteria sizes of most common water-borne diseases
• Pore size ∼ 300 nm; pore volume ∼ 85%• Mechanically strong with nano-trusses
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Microfiltration performance
* All the above test were processed on the dead-end flow system at 2.28psi by gravity.
NameTotal
thickness (µm)
Ave. flux (1000L/m2h)
Max. pore size(µm)
Ave. pore size(µm)
E-spun PES/Coffee Filter Paper
130 16.6 2.5 0.8140 13.4 1.7 0.6155 11.7 1.2 0.4
E-spun PVA/nonwoven PET 160 5.5 0.6 0.2Millipore GS 0.22 µm 175 0.39 0.6 0.2 Millipore RA 1.20 µm 145 2.0 4.4 1.5
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Plant
Cell
Cell wall
Fiber bundles
Single microfibers
Cellulose nanofibersD ~ 5 nm
Cellulose chains
Cost-effective green approach to prepare cellulose nanofibers
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Demonstrated chemical scheme to prepare cellulose nanofiber scaffold (d~ 5nm)
100 µm 100 µm 0.50 µm
TEMPO/NaBr/NaClO Mechanical treatment
1 μm
10 μm
Knife coating systemCross-section view
Top view
0.1 μm
O O
OO
OOH
OHHOHO
OHHO
OHHO
OH
OH
n-2
OH
O O
O
OHHOHO
OH
HO
OH
OH
OH
OO
OOHHO
NaOOC
OHC
OH
m
O
O
OHHO
HOOH
O
o p
m = 0.12, o = 0.04, p = 0.84
Cellulose microfibers from wood pulpFiber diameter is ~ 40 μm
Cellulose nanofibersThe fiber diameter is ~ 5 nm
Oxidized cellulose microfibers
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High-Resolution TEM Images of Ultra-Fine Cellulose Nanofiber
First batch
500 nm
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E-spun membrane
Solution pH = 2
Knife coating system
Contact oven
UF membrane
1
2
3 4
Process : 1. Soak nanofibrous scaffold in HCl solution (pH = 2)2. Drain out excess solution3. Cast cellulose nanofiber solution (0.05-0.10 wt%) with knife
coating system4. Dry in 100 oC contact oven
Stony Brook coating process to cast ultra-fine cellulose nanofiber barrier layer
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High-Flux Nanofibrous Membranes for UF Applications
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High Resolution SEM Image of Cellulose Nanofiber Barrier Layer
First batch Mean pore size about 20 nm
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UF performance of cellulose-based TFNC membrane for oil and water separation
Filtration conditions• Feed solution: soybean oil -1350 ppm, DC 193 surfactant – 150 ppm • Cross-flow mode at 30 psi, filter area : 65.15 cm2, temperature ~ 35 °C• The thickness of barrier layer: ~ 0.1 μm
0 10 20 30 40 500
100
200
300
400
500
600
Cellulose nanofiber/PAN PAN10 (Sepro) % rej of Cellulose nanofiber/PAN % rej of PAN10 (Sepro)
Time (h)
Perm
eatio
n Fl
ux (L
/m2 h)
90
92
94
96
98
100Rejection (%
)
11 X
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Advantages of high-flux TFNC membranesWhat a substantial increase in efficiency will do? • High flux membrane is analog to faster CPU• TFNC membrane can be a platform technology to MF,
UF, NF, and RO• Enabling new system design with small foot print,
less component and less energy consumption- Much more cost effective- Low pressure systems- Manual operation
• Broad range of other applications, including(osmotic) energy generation
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Nanofibrous Membranes for Ethanol-Water Separation via
Pervaporation Method
Benjamin S. Hsiao, SBUBenjamin Chu, SBU
Devinder Mahajan, SBU & BNL
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Objectives:
• A unique class of high-flux nanofibrous membrane has been demonstrated for water purification
• The new membrane format will be tested for energy efficient pervaporation of separating ethanol and water
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Introduction: Ethanol consumption is growing~ 10 wt. % of ethanol in petro; present engine structure does not need to be modified. Ethanol consumption grows every year.
National Petroleum Council, July 2007.
For US, 1/3 oil displacement by 2025
Currently
Reason
Compare 2002 with 2009, ethanol consumption growth is up to 440%
By 2012, US ethanol production is estimated at 15.2 billion gallons per year
Future
Year Ethanol Consumption (Billion Gallon)
Production(Billion Gallon)
2002 2.0 2.1
2003 2.8 2.8
2005 3.9 4.0
2007 6.9 6.5
2008 9.6 9.3
2009 10.8 10.7
US Energy Information Administration (EIA),2010
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Distillation
Higher energy waste in production
Exhaust emission problem
Approach: Energy Saving Refined Process
K.R. ,Lee, J.Y. Lai, “Pervaporation”, .J. of the Chinese Institute of Chemical Engineers,1998
Bio-ethanol as fuel level should be dehydrated.
Refined process is needed due to azeotrop in water-ethanol mixture.
Pervaporation
Lower energy waste
Clean process, no emission problem
Center for BioEnergyResearch and Development
A Multi-University/IndustryInitiative Spanning North America
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State-of-the-art of Membranes for Pervaporation
Polymeric Membranes Lower cost
Simpler processing
Good mechanical stability
Lower selectivity and permeating flux
P.D. Chapman , J. Membr. Sci., vol. 218, pp. 5-37, 2008.
Inorganic Membranes:• Higher selectivity and permeating
flux
• Good thermal and chemical stability
• Higher cost
• Difficult to process for large scale plants
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• Solution diffusion type membrane • Based on hydrophilic poly vinyl alcohol (PVA)• (PVA) selective layer on polyacrylonitrile (PAN)
porous membrane and non-woven fabric• Annealed/cross-linked structure
X. Qiao, J. Membr. Sci., 2005
Type A zeolite membrane
B. Soydas, Middle East Technical Univ., Ankara, Turkey, 2009
Zeolite top layer
Top layer scale up
• Zeolites are crystalline micro porous aluminosilicates
• A pore flow type membrane (adsorption)• Pore diameter ~ 0.4 nm, H2O = 0.296 nm,
EtOH = 0.43
PVA based mixed matrix membranes
Solution
Liquid Phase Membrane
Vapor PhaseDiffusion
Evaporation
Solution diffusion model
Solution
Liquid Phase
Membrane
Vapor Phase
Permeate (vapor)
Pore Flow model
Current Status of Pervaporation Membranes
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Liquid Retentate
Gas Permeate out
Membrane inside the cell
Mixture feed in
Pervaporation unit performancePressurized feed tank (1 gallon)
Recycling pump (34 L/hr)
Vacuum pump (2×10-3mbar)
Pervaporation = Permeate + Evaporation
Porous steel PlateFleeceMembraneO-ring
Driving Force:Pressure difference between feed and product , and difference of chemical potential to the membrane.
Custom cell by Sulzer Chemtech
Test cell (Diameter 3.15 inch)
Temperature (20℃~90℃)
Pervaporation Instrumentation
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Anticipated Results
• Understand the structure/property relationships in pervaporation membranes
• Control and design appropriate membrane structure
• Higher flux (more energy efficient) pervaporation performance
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Christian Burger
Dufei Fang
Hongyang Ma Changquan QiuRan Wang
Chu-Hsiao Group
Stony BrookTechnology Group