Post on 02-Apr-2018
Compensation Committee Report
Presented to:
Marcellus, Utica, & Point Pleasant Shale Conference
Columbus, OH
April 16-17, 2014
Advanced Treatment of Flowback
Water Using Magnetic Ballast
Clarification and Vortex
Generating Membrane Systems
for Discharge
Ben Pakzadeh, Ph.D., P.E.
Authors
Southern Research Institute
Behrang (Ben) Pakzadeh PhD, PE, Brian Mastin, PhD, Bill Chatterton,
Austin Vaillancourt, Jay Renew, PE, Jay Wos
M2 Water Treatment Inc.
Dave Philbrook, PE
BKT
Joon H. Min, PhD, Allen Chan, JK Kim, PhD, & HJ Hwang, PhD
Research Partnership to Secure Energy for
America for Project Funding
Kent Perry of RPSEA for his support.
Acknowledgement
Introduction
Project partners:
Southern Research Institute,
BKT United (Anaheim, CA),
M2 Water Treatment Inc. (Raleigh, NC)
Received an award from Research Partnership to Secure Energy
for America (RPSEA) to develop an innovative approach for
treatment of shale hydraulic fracturing water to produce National
Pollution Discharge Elimination System (NPDES) quality water for
discharge and/or reuse.
Flowback Water vs. Produced Water
• Flowback water
– 10 to 40% of the water used in fracturing is recovered in about 7-10
days after a hydraulic fracturing job
– High flow rate
– Contains clays, chemical additives, low to moderate total dissolved
solids (TDS)
• Produced water
– Naturally occurring water in shale formation
– Low flow rate
– High TDS levels
Flowback and Produced Water Characteristics
• Free and dispersed oil and grease
– Oil droplets (sub-micron to 100s of microns);
– Aliphatic;
– Aromatic hydrocarbons
• Suspended solids, sand, turbidity
• Dissolved oil
– Soluble aromatic hydrocarbons
– Organic acid (e.g., BETX, fatty acids, naphthenic, phenols)
• Dissolved solids (e.g., hardness, metals, NORMs, Na+, Cl-, etc.)
1. Magnetic ballast clarification (MBC)
2. Vortex-generating Fil-Max membrane system (FMX)
3. Conventional reverse osmosis (RO)
4. Hydrogel adsorbent
5. Solidification/stabilization
Approach Combines Five Technologies
Treatment Technologies Identified for this Project
1. Free and dispersed oil and grease – Hydrocyclone
Oil-Water Separator
2. Suspended solids, sand, turbidity – MBC or FMX
3. Dissolved oil – FMX-UF
4. Dissolved solids – FMX-NF and RO
5. FMX-NF and RO concentrate – Hydrogel or
Solidification/ Stabilization
Objectives
• Treat flowback water for reuse or discharge
• Perform bench-scale studies using small MBC, FMX, and RO
units
– This presentation provides preliminary performance data
from MBC and FMX bench-scale studies
– Flux and flow rates for FMX and RO units
• Conduct column studies for metals and NORMs removal using
membrane concentrates
• Solidification and stabilization studies
• Process integration and optimization
• Field pilot work
Process Integration
P-18
Oil
Separator
MBC
Clarifier
Oil and
Organics
Sludge
Handling
FMX – NF
membraneRO
membrane
Precipitation /
Solidification
OR
Hydrogel Adsorption
Membrane
Concentrate
Clean Water
To reuse
To reuse
To reuse or
discharge
Magnetic Ballast Clarification (MBC)
• Clarification using magnetite and polymer
• Polymer attaches suspended solids to
magnetite, forms a dense magnetic floc, and
settles rapidly
• Magnetic floc removed from the water by
gravity and magnetically
• Magnetite is cleaned and recycled in-situ
What is Magnetite?
• Fully oxidized form of iron (Fe304)
• 5 times density of water
• Magnetic
• Non-toxic
• Commonly found in the environment
Magnetic Ballast Clarification (MBC)
Magnetic Ballast Clarification (MBC)
Vortex Generating Membrane (FMX)
• Patented Fouling Resistance Membrane Filtration System
• Developed to overcome fouling in conventional membrane
filtration technology for high solids, high density, and high
viscosity wastewaters.
• Reduces chemical cleaning (less chemicals)
• Better matching of membrane types (MF, UF, or NF) to
applications.
• Current applications include anaerobic digester effluent
treatment, chemical manufacturing, oil & gas industrial waste.
FMX - Technical Background
• FMX utilizes a Karman Vortex to
achieve fouling resistance.
• Karman Vortex - strong swirling
pattern generating strong turbulence
with minimum energy.
• The rotating blades generate Karman
Vortex and turbulent flows.
• Foulants on the boundary layers are
disrupted and carried away by the
feed stream.
Vortex Generator System
FMX Custom Systems
FMX are installed in parallel to increase throughput and sometimes in series with
Reverse Osmosis (RO) systems to improve TDS removal efficiency.
Hydrogel Adsorption for Metals Removal
Hydrogel Media
(~500 micron size)
• Low cost single use
media for selective
metals removal
• Developed at Caltech
• To be evaluated for
high chloride produced
water
• Pilot tested at EPA and
funded by DOE, EPA,
NSF
FMX Membrane - Concentrate Treatment
FMX Permeate Wastewater
Concentrate with metals
FMX
Hydrogel Vessel
Hydrogel Waste Reduction
• Waste hydrogel
adsorption media volume
is reduced by > 90%
• Simply air drying the
spent media to reduce
disposal cost
(dehydrated media
meets TCLP)
Solidification / Stabilization (S/S)
• S/S includes mixing waste with
coal fly ash, gypsum and/or an
activation agent (i.e., cement or
lime).
• S/S consists of two processes:
1. Solidification – Physically
encapsulating the waste to
improve physical properties.
2. Stabilization – Converting
contaminants to less mobile &
less toxic forms.
Solidification / Stabilization
• USEPA regards S/S to be an
established treatment process for
more than 57 wastes.
• S/S processes have been effective in
the immobilization of NORM-
contaminated wastes.
• Fly ash and gypsum are coal-fired
power plant byproducts (waste to
resource opportunity)
Flowback Water Samples - Characteristics
(Southern Research Institute)
Parameter Bakken Produced Water Eagle Ford Flowback Water
pH 5.4 7.05
TDS (mg/L) 336889 12892
Chloride (mg/L) 186755 3989
Sulfate (mg/L) <500 <100
Sodium (mg/L) 97182 5960
Calcium (mg/L) 18520 409
Magnesium (mg/L) 1287 72
Potassium (mg/L) 6957 81
Boron (mg/L) 451 44
Silica (mg/L) 118 68
Iron (mg/L) 157 12
Strontium (mg/L) 81 2.6
Barium (mg/L) 29 2.9
MBC Jar Test Performance Data
Treatability tests with
polymers/chemicals With
magnetite
With polymer
only Produced
Water from
Bakken Shale Produced
Water from
Bakken Shale
MBC Jar Test Performance
MBC Jar Test Performance Data
Application Parameter Untreated MBC
(Treated) % Removal
Produced Water
(Bakken Shale)
Suspended
Solids (mg/l) 314 6 98.0
Turbidity (NTU) 417 32.7 92.2
Silica (mg/L) 41.7 6.5 84.4
Total Iron
(mg/L) 157 7.2 95.4
FMX-B Membrane Equipment
Bench-Scale & Pilot-Scale
Bench-Scale Pilot-Scale
• Membrane selection
• Flux and flow rate studies
• Efficacy evaluations
Bakken Shale Produced Water Bench Test
Membrane Type Name Flux (LMH)
UF Membranes
FU-S20-5 116
FU-N10 164
FU-N5 62
FU-SR1-1 66
NF Membranes
FN-N10 49
FN-S40 40
FN-D50 No flow
FN-D90 20
FN-T10 No flow
Bakken Shale Produced Water Pilot Test
Membrane Flux (LMH)
Conductivity reduction
Turbidity Reduction
TS reduction
TSS reduction
Iron reduction
FN-N10 74 58% 98.8% 6.2% >98% 90%
Feed Permeate Concentrate
NF Membrane in Produced Water Test
Nano-filtration achieves 90% iron removal
Conclusions
• > 98% TSS removal and > 95% Fe removal
• Treated water is suitable for reuse in fracking operations (after
disinfection)
• Hardness removal using FMX-NF reduces scaling tendencies
• NPDES quality water can be achieved for produced and flowback
waters with < 60,000 mg/L TDS (in progress)
• Cost-benefit analysis will be performed to determine CAPEX and
OPEX for the treatment process
• This project will allow for the development of this technology through
DOE/RPSEA funds, thereby reducing the financial risk to small
producers/vendors.
Advanced Treatment of Flowback Water Using Magnetic Ballast
Clarification and Vortex Generating Membrane Systems for Discharge
Questions?
Ben Pakzadeh, Ph.D., P.E., Southern Research Institute
pakzadeh@southernresearch.org
Dave Philbrook, PE, M2 Water Treatment Inc.
davephilbrook@m2wt.com
Joon Min, Ph.D., BKT
jhm@bkt21.com