1 Recycled Wash Water Crushed Returned Concrete National Concrete Consortium March 2012 Colin Lobo, Ph.D., P.E. NRMCA Sustainability Initiatives Key Performance Indicators Potable water: 10% reduction by 2020 20% reduction by 2030 Waste: WWW. NRMCA.ORG Waste: 30% reduction by 2020 50% reduction by 2030 Recycled content: 200% increase by 2020 400% increase by 2030 Recycled Content: Where are we today? 0 – 50% 20% WWW. NRMCA.ORG 0% 9% by volume? Increase 200% ~30% by volume? NRMCA Sustainability Initiatives Potable water: 10% reduction by 2020 20% reduction by 2030 Recycled content: 200% increase b 2020 WWW. NRMCA.ORG Waste: 30% reduction by 2020 50% reduction by 2030 200% increase by 2020 400% increase by 2030 “Waste” to “Recycled” Returned Concrete - estimated 2 - 10% of production 8 to 12 million cubic yards Truck and Mixer Washout 50 to 200 gallons per truck WWW. NRMCA.ORG Need to manage Storm Water Process Water Aggregates and Cement Solids Comply with environmental regulations 1950’s: This is Not New! WWW. NRMCA.ORG
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1
Recycled Wash WaterCrushed Returned Concrete
National Concrete Consortium
March 2012
Colin Lobo, Ph.D., P.E.
NRMCA Sustainability Initiatives
Key Performance Indicators
Potable water: 10% reduction by 2020
20% reduction by 2030
Waste:
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Waste: 30% reduction by 2020
50% reduction by 2030
Recycled content: 200% increase by 2020
400% increase by 2030
Recycled Content:Where are we today?
0 – 50%
20%
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0%
9% by volume?
Increase 200%
~30% by volume?
NRMCA Sustainability Initiatives
Potable water: 10% reduction by 2020
20% reduction by 2030Recycled content:200% increase b 2020
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Waste: 30% reduction by 2020
50% reduction by 2030
200% increase by 2020400% increase by 2030
“Waste” to “Recycled”
Returned Concrete - estimated 2 - 10% of production 8 to 12 million cubic yards
Truck and Mixer Washout 50 to 200 gallons per truck
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Need to manage Storm Water
Process Water
Aggregates and Cement Solids
Comply with environmental regulations
1950’s: This is Not New!
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2
The future…
CO2 is passé!
Water – the NEW GOLD
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Water & Solids Management
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Recycling Water
Challenge: Recycle Water
Specification Clauses
Mixing water for use in concrete shall be potable
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Water used in concrete shall be clean and free oil, salt, acid, alkali, sugar, vegetable or other substances injurious to the finished product
Water and Solids Management
Vary from simple to complex:
1. Pit or sedimentation ponds
2. Recycle clarified water
3 Basic reclaimers
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3. Basic reclaimers
4. Reclaimers - “Zero-discharge”
5. Reclaimers - “100% recycling” system w/HSAs
Settling basinTruck wash, batch plant or
discharge after treatment
Solids to landfill
Typical
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3
Sedimentation (Washout) Basinw/Water Transfer Capability
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Basic Reclaimer System
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Drying Extracted Solids
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Zero Discharge
Reclaimed Aggregates
Recycler
Plant
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Slurry Pit
Slurry WaterClear Water
Clear Water
Research – Use of wash water
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80
100
120
140
(mm
)
Air-entrainedw/c = 0.40
330
340
350
, lb
/cu
.yd
.
NRMCA U of Toronto
Target slump 3 – 5 in.
Wash Water: Effect on Consistency
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0
20
40
60
0 10 20 40
Slum
p
Slurry Solids (kg/m3)
290
300
310
320
Control Clarif ied 30 lb 60 lb
Mix
ing
Wa
ter,
4
Wash Water: Effect on Setting Time
6
8
e (h
ours
)
Air-entrained: w/c = 0.40
6.00
8.00
hrs
Constant Slump
Constant w/cNRMCA
U of Toronto
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0
2
4
0 10 20 40
Sett
ing
Tim
e
Slurry Solids (kg/m3)
0.00
2.00
4.00
Control Clarif ied 30 lb 60 lb
Set
Tim
e, h
Wash Water: Effect on Strength
4200
4400
4600
4800
tre
ng
th, p
si
40
th (
MP
a)
Constant Slump
Constant w/cNRMCA U of Toronto
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3400
3600
3800
4000
Control Clarif ied 30 lb 60 lb
Co
mp
res
siv
e S
t
0
20
0 10 20 40Solids, kg/m3
Stre
ngt
Zero Discharge - HSA
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Courtesy: Knelson Concrete Recovery Systems
Hydration Stabilizing Admixtures
Effect of HSA on Hydration of Solids in Water
10%
12%
14%
16%
18%
gn
itio
n, %
HSA 13 oz B
HSA 22 oz Tr
HSA 28 oz A
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0%
2%
4%
6%
8%
0 2 4 6 8 10 12Age of Slurry, days
Lo
ss
on
Ig
Zero Discharge - HSA
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Courtesy: Knelson
Zero Discharge: w/ HSAs
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5
Wash Water/HSA: Effect on Setting Time
Slurry with 45 lb. solids to Mix
80
100
120
Tim
e
No Admixture Low Dose High Dose
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0
20
40
60
Control 4 h 1d 7d
Age of Slurry
Set
ting
Wash Water/HSA: Effect on Strength
Slurry with 45 lb. solids to Mix
5500
6000
Str
eng
th, p
si
No Admixture Low Dose
High Dose
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4000
4500
5000
Control 4h 1d 7dAge of Slurry
28-d
Co
mp
ress
ive
S
Reclaimers w/Gray Water Recycling
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Gray Water Recycling
Monitoring gray water Specific gravity
Temperature
Age
Plumbing back flush
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Plumbing, back-flush
Special water meters,
Maintenance!
QC buy-in
Commitment and Training!
ASTM C1602 - Mixing Water Types
Potable
Non-potable
Water from ready mixed production
Qualify for use
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y Strength
Setting time
Optional Chemistry
Solids
Testing Frequency
C 1602 – Qualification of Water
Limits Test Methods
Compressive strength, min % control at 7 days A
90 C 31/C 31M, C 39/C 39M
TABLE 1 Concrete Performance Requirements for Mixing Water(Mandatory)
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control at 7 days A C 39/C 39M
Time of set, deviation from control, h: min A
From 1:00 early to 1:30 later
C 403/C 403M
A Comparisons shall be based on fixed proportions for a concrete mix design representative of questionable water supply and a control mix using 100 % potable water or distilled water. (See Annex A1).
6
C 1602 – Qualification of Water
Max conc. in combined water Limits, ppm Test Methods
Chloride as Cl-
prestressed 500 C 114
TABLE 2 Optional Chemical Limits for Combined Mixing Water(Optional)
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prestressedother reinforced concrete
5001000
C 114
Sulfate as SO4 3000 C 114
Alkalies as (Na2O + 0.658 K2O) 600 C 114
Total solids by mass 50,000 C 1603
C 1602 – Qualification of Water
Water source Density Table 1 Table 2
Potable No testing
Non Potable N/A 3 months /(4)/ annual 6 months
Testing Frequencies at Most Critical Condition
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Wash Water (based on density)
< 1.01
Daily
6 months /(2)/ annual
1.01 – 1.03 Monthly /(4)/ 3 months 6 months
>1.03 Weekly /(8)/ monthly
Water source has to be tested before first useTesting frequency can be reduced after number of tests (#) indicate compliance
ASTM C 1603 – Density and Solids Content
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DensitySolids Content
ASTM C 1603 –Correlation between Density and Solids
100
150
lid
s,
(x 1
000
) p
pm
ASTM Limit DW – Density of SlurryDS – Density of solids (2.6)S – Solids in slurry ppm
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0
50
1 1.03 1.06 1.09
Water Density, g/mL
To
tal
So
l
000,000,1D
D
1D
1DS
W
S
S
Wppm
Sppm – Solids in slurry, ppm
Gray Water Blend Chart
based on specific gravityof gray water
% Gray Water / Tap Water (Based on sp. gr. of Gray Water)
ASTM C125 Manufactured sand – fine aggregate produced by
crushing rock, gravel, iron blast-furnace slag, or hydraulic cement concrete
AASHTO MP 16-07
Reclaimed Concrete Aggregate for use as Coarse Aggregate in Hydraulic Cement Concrete
“Reclaimed concrete aggregate” (RCA)
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gg g ( ) derived from crushing, processing and
classification of hydraulic concrete construction debris recovered from roadways, sidewalks, buildings, bridges, and other sources…
AASHTO MP 16-07
Grading – same as M 43 (ASTM C33)
LA Abrasion loss – max 50%
Soundness Sodium sulfate – 12%
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Magnesium sulfate – 18%
Resistant to ASR – test by AASHTO T303
Resistant to D-cracking – test by T161
SG – range < 0.1
Absorption – range < 0.8%
10
AASHTO MP 16-07
Deleterious materials Class A (severe), B (moderate), C (negligible)
Limits on clay lumps, friables and chert
Limit on “other deleterious substances” <0.3%
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Limit on coal and lignite <0.2%
Minus No. 200 < 1.5%
Chloride ions <0.6 lb per cubic yard.
Japanese Standards
Coarse aggregate Fine aggregate
Density(g/cm3)
Absorption(%)
Density(g/cm3)
Absorption(%)
JIS A 5021, 5022 and 5023 (Recycled aggregate for concrete, Recycled Concrete)
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JIS A5021(Class H)
2.5 or 2.5 or moremore
3.0 or less3.0 or less2.5 or 2.5 or
moremore3.5 or less3.5 or less
JIS A5022(Class M)
2.3 or more
5.0 or less2.2 or
more7.0 or less
JIS A5023(Class L)
- 7.0 or less -13.0 or
less
Dr. Noguchi, U of Tokyo
Applications of Recycled AggregateScope of application
Class - H
No limitationsNo limitations are put on the type and segment for concrete and structures with a nominal strength of 45MPa or less
JIS A 5308 (ReadyJIS A 5308 (Ready--mixed concrete)mixed concrete) allowing to use Class-H RA for normal strength
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to use Class H RA for normal strength concrete
Class - M
Members not subjected to drying or Members not subjected to drying or freezingfreezing--andand--thawing actionthawing action, such as piles, underground beam, and concrete filled in steel tubes
Class - L Backfill concrete, blinding concrete, and Backfill concrete, blinding concrete, and leveling concreteleveling concrete
Dr. Noguchi, U of Tokyo
Research funded by RMC - REF
Technical data on concrete containing CCA and evaluate its use in concrete
Properties of CCA Revisions to standards? (C 33)
C t f
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Concrete performance
Guidance on use
http://www.nrmca.org/research/eng_articles.asp
NRMCA Research CCA - 1000, 3000, 5000 psi Non AE
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http://www.nrmca.org/research/eng_articles.asp
Aggregate CharacterizationVolume of plus No. 4 = 60% to 70% Specific Gravity, Absorption