sap and vacuum dynamics - university of vermontpmrc/sapvac.pdfdoes not greatly affect sap chemistry,...
TRANSCRIPT
![Page 1: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/1.jpg)
DYNAMICS OF SAP AND VACUUM FLOW
Timothy D. Perkins, DirectorTimothy D. Perkins, DirectorUniversity of Vermont
Proctor Maple Research CenterCopyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 2: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/2.jpg)
30Effects of Vacuum
r2 = 0.969
20
25
Seas
onus
ted)
15
on in
200
4 S
amet
er a
dju
Microspout
5
10
p Pr
oduc
tioal
lons
-di
a
0
5
0 3 6 9 12 15 18 21 24
Sap (ga
0 3 6 9 12 15 18 21 24Vacuum Level (inches Hg)
Vacuum increases sap yield. 50‐200% increase in sap yield using vacuum. Strong linear relationship between vacuum level and sap yield (more vacuumrelationship between vacuum level and sap yield (more vacuum = more sap). Does NOT greatly affect sap chemistry, sap sugar content, or wounding.
Vacuum level? The higher the better! Detection and repair of leaks is critical.Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 3: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/3.jpg)
Fewer taps on a lateral line results in higher production. Vacuum is not propagated well through liquid When lines are full of liquid vacuum level at the tree is reduced resultingthrough liquid. When lines are full of liquid, vacuum level at the tree is reduced, resulting in lower production.
“Strive for five, no more than ten” OR Every extra 5 taps loses ~10% of sap yieldCopyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 4: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/4.jpg)
University of VermontProctor Maple Research Center
Underhill Center, Vermont
Control ‐ 5 Taps/Lateral Martin Block(High Yield
Chamber Spout Base
One Tap/Lateral
(High Yield Study)
Mainline / No Laterals
SapShed
RedSeries
(Strategies Study)*
• Initial thinning• Treatment plots laid out(12 Plots, Total 775 taps
Main Bush
0 1,000 2,000500Feet
Avg 65 trees/plot, Avg 14.2” dbh)
• Mainline/tubing installed• Sap shed expanded
PMRC Lab
Main Bush(Tubing
ComparisonStudy)*
*Sugarhouse
Funded By: NAMSC & USDA GrantsProperty BoundaryTapping Boundary
Sap shed expanded• Vacuum pump installed• Custom releasers Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 5: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/5.jpg)
Treatment 1 Treatment 2
High Sap YieldsTreatment 1.
Control – Standard Layout3/4” Mainline
5/16” Lateral Line3’ long, 5/16” Droplines, 3‐5 taps per lateral
Treatment 2. Chamber Spout Base
3/4” Mainline5/16” Lateral Line
3’ long, 5/16” Droplines, modified chamber spout base
Treatment 3. Treatment 4. One Tap per Lateral
3/4” Mainline5/16” Lateral Line
3’ long, 5/16” Droplines, 1 tap per lateral
No Lateral Lines3/4” Mainline
3’ long, 5/16” Droplines, 1 tap per lateral
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 6: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/6.jpg)
All single‐pipe systems
Very long mainlines
Average of 65 trees/plotAverage of 65 trees/plot
25‐26” Hg
Tapped at the same time
Standard Leader Spouts& Stubbys (NOT CV)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 7: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/7.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 8: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/8.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 9: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/9.jpg)
31.5 32.130.7
35
29.1
25
30
20
gal/tap)
15
Sap Yield (g
10
0
5
5 Taps Per Lateral 1 Tap Per Lateral Mainline Only Chamber Spout Base
TreatmentCopyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 10: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/10.jpg)
Mainline Systems have been Optimized
Both single‐pipe and dual‐pipe systems, if sized and installedproperly are able to transfer vacuum to the far reaches of themainline system. Research and practical experience have resultedin systems that function very well. Little more can be done here.Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 11: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/11.jpg)
Why No Differences in Sap Yield?
Chamber Spout Base results are likely NOT representative due to large number of leaks from both the spout/tree andfrom both the spout/tree andspout/spout base interface.
We will repeat this study in 2011 using an improved Chamber Spout Base design orp p g(more likely) something else.
1. Vacuum is being equally well transferred through all the mainline systems.
2. Sap flow in 2010 was low‐moderate for most of the season and never truly “challenged” any of the systems.
3 Mainline is NOT the major restriction in3. Mainline is NOT the major restriction in tubing systems. Something else is.
4. Other?
So is the system we have nowSo is the system we have now the best possible?
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 12: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/12.jpg)
What about Lateral Lines and Drop Lines ?Plastic tubing was originallyPlastic tubing was originallyadapted from medical andindustrial tubing sourcesand tended to be ¼” insidediameter.
Fittings were necessarilysized to fit the tubing.
l b h d h ll hEarly on, most tubing was on gravity. When run downhill, having anumber of taps on small diameter tubing served to develop“natural vacuum”, which increased sap yields.
In current systems, vacuum pumps replace “natural vacuum”,however this creates a problem of having to transfer gases (fromthe tree and from leaks) through the tubing system along with sapthe tree and from leaks) through the tubing system along with sap.
Vacuum is not propagated well through liquid.Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 13: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/13.jpg)
Factors that Restrict the Flow of Sap and Vacuum in Current Tubing Systemsp g y
Major Losses
• Type of fluid (capillarity)
Δh = λ (l / dh) (v2 / g 2)
yp ( p y)
• Flow rate (number of taps on a lateral line)
• Pipe length (length of laterals and drops)
• Pipe roughness (dirt/debris/biofilms)
• Pipe diameter
Minor Losses
• Tubing fittings (restrictions, number of fittings on lateral line changes in direction/bendson lateral line, changes in direction/bends,merging of sap streams at tees)
• Turbulence
• Gas from tree (gas moves faster than liquid)
• Change in flow direction (backflow)Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 14: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/14.jpg)
1 8
2.0100' 5/16” Lateral line10 taps
Fitting ID Tubing ID
0.2"
1.4
1.6
1.8Mod‐High Flow Rate
1.4” Hg
1/4 "
1.0
1.2
ad Loss (ft)
0.9” Hg
1/4 "
5/16"0.4
0.6
0.8
Hea
5/16"
3/8 "7/16" 1/2 " 5/8 "
0.0
0.2
0.4
A loss of pressure that results from friction sustained by a fluid passing through a line
0.15 0.25 0.35 0.45 0.55 0.65
Tubing Diameter (inches)Δh = λ (l / dh) (v2 / g 2)
A loss of pressure that results from friction sustained by a fluid passing through a line, valve, fitting, or other device. Head loss that occurs in pipes is dependent on the flow velocity, pipe length and diameter, and a friction factor based on the roughness of the pipe and the Reynolds number of the flow.Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 15: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/15.jpg)
1.8
2.010 tapsMod‐High Flow Rate
1.4
1.6
1.0
1.2
ad Loss (ft)
0.9” Hg
0 4
0.6
0.8He
0.0
0.2
0.4
1/2” line + fittings
A loss of pressure that results from friction sustained by a fluid passing through a line
50 100 150 200 250 300
Lateral Line Length (ft)Δh = λ (l / dh) (v2 / g 2)
A loss of pressure that results from friction sustained by a fluid passing through a line, valve, fitting, or other device. Head loss that occurs in pipes is dependent on the flow velocity, pipe length and diameter, and a friction factor based on the roughness of the pipe and the Reynolds number of the flow.Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 16: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/16.jpg)
1.8
2.0100 ftMod‐High Flow Rate
1.4
1.6
g
1.0
1.2
ad Loss (ft)
0.9” Hg
0.4
0.6
0.8He
0.0
0.21/2” line + fittings
A loss of pressure that results from friction sustained by a fluid passing through a line
0 2 4 6 8 10 12 14 16 18 20
Number of Taps per Lateral LineΔh = λ (l / dh) (v2 / g 2)
A loss of pressure that results from friction sustained by a fluid passing through a line, valve, fitting, or other device. Head loss that occurs in pipes is dependent on the flow velocity, pipe length and diameter, and a friction factor based on the roughness of the pipe and the Reynolds number of the flow.Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 17: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/17.jpg)
12 0
14.0
10 50
12.25
Mathematical Modeling of
10.0
12.0 Peak Flow(many taps, long lines)
8.75
10.50Pressure Loss in Lateral Lines
6.0
8.0
ad Loss (ft)
Moderate Flow5.25
7.00
Pressure Los
4.0
Hea
Slow Flow(few taps, short lines)
1 75
3.50
ss (“ Hg)
0.0
2.0
0 00 0 05 0 10 0 15 0 20 0 25 0 30 0 35 0 40
1/2” line + fittings
1.75
0.00
A loss of pressure that results from friction sustained by a fluid passing through a line
0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40
Sap Flow Rate (gal/hr)Δh = λ (l / dh) (v2 / g 2)
A loss of pressure that results from friction sustained by a fluid passing through a line, valve, fitting, or other device. Head loss that occurs in pipes is dependent on the flow velocity, pipe length and diameter, and a friction factor based on the roughness of the pipe and the Reynolds number of the flow.Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 18: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/18.jpg)
Fewer taps on a lateral line results in higher production. Vacuum is not propagated well through liquid When lines are full of liquid vacuum level at the treethrough liquid. When lines are full of liquid, vacuum level at the treeis reduced, resulting in lower production.
“Strive for five, no more than ten” OR Every extra 5 taps loses ~10% of sap yieldCopyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 19: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/19.jpg)
Measurement of Sap Flow Under Vacuum
Two trees (25” and 11” or 16” dbh)
5/16” spout and tubing
Connected to vacuum chamber
22” Hg
Each line runs through an individualEach line runs through an individual tipping bucket rain gage
Bucket tips are 7.6 ml (0.002 gal)
Time of each tip recorded with datalogger.
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 20: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/20.jpg)
TippingBucketBucket RainGageInsideInsideVacuumCh bChamber
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 21: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/21.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 22: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/22.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 23: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/23.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 24: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/24.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 25: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/25.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 26: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/26.jpg)
Vacuum MeasurementsRecording Gages Error limits + 0 1% FS (0 09” Hg)Error limits + 0.1% FS (0.09 Hg)Measured at 1 sec intervals6 locations in dual‐pipeline systemPump (before moisture trap)• Releaser (upper stage)• Mainline (25’ after manifold)• Mainline end (~300’ from manifold)• Dropline (4th tap – normal spout• Dropline (4 tap – normal spout• Dropline (4th tap – CV Adapter)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 27: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/27.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 28: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/28.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 29: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/29.jpg)
Sap in lines
PumpTurned On
Naturalvacuum
Vacuum level at the taphole Vacuum in dual‐line system pslowly decreases during sap run
Vacuum in dual line systemclosely tracks pump
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 30: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/30.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 31: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/31.jpg)
Approaches to Reducing Losses Due to Lateral/Drop Line Restrictions
Oversized Lateral LinesChamber Spout Base(Modified Stubby)
Dual Lateral & Drop Lines
Due to Lateral/Drop Line Restrictions
Spring 2010Spring 2010Fall 2008Spring 2009, Spring 2010 Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 32: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/32.jpg)
Dual‐LineDual‐Line Spout Video
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 33: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/33.jpg)
30
2009 ‐ Single versus Dual‐Lateral/Dropline
25
18.9%
20
ons/tap)
15
p Yield (gallo
10Sap
5Single
Dual
0
2/26 3/5 3/12 3/19 3/26 4/2 4/9 4/16Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 34: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/34.jpg)
Chamber Spout BaseChamber Spout Base
½” PVC Fittings
Bushing to mate to a Clear‐Straight‐Throughg g(CST) Spout
5/16” Drop & Lateral5/16 Drop & LateralLine
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 35: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/35.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010
![Page 36: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/36.jpg)
45
2010 ‐ Over‐Sized Lateral Lines & Fittingsi h difi d S B
35
40 with modified Spout Base
18.4%
25
30
/tap
)
20
25
ap Yield (gal
10
15
Sa
55/16" line
1/2" line
0
2/24 3/3 3/10 3/17 3/24 3/31 4/7Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 37: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/37.jpg)
SummaryCalculations indicate that we are frequently losing up to 2‐4” Hg of vacuum due to lateral and d li (di t l th fitti t ) tdroplines (diameter, length, fittings, etc.) at moderate‐high flow rates, and transiently losing up to 10” Hg at peak flow rates.p g p
This represents a 10‐20+% loss in potential sap yield during good runs, and up to 50% loss during y g g , p % gbrief peak flow periods.
Does this loss actually occur in the field?Does this loss actually occur in the field?
Is this an acceptable loss?
Can we do something about it?Copyright Timothy Perkins, UVM Proctor
Maple Res Ctr, May 2010
![Page 38: Sap and Vacuum Dynamics - University of Vermontpmrc/SapVac.pdfDoes NOT greatly affect sap chemistry, sap sugar content, or wounding. Vacuum level ... Sap and Vacuum Dynamics Author:](https://reader031.vdocument.in/reader031/viewer/2022030605/5ad368f97f8b9afa798ddffe/html5/thumbnails/38.jpg)
Copyright Timothy Perkins, UVM Proctor Maple Res Ctr, May 2010