Deep Winter Greenhouses: Passive solar production ... · Deep Winter Greenhouses: ... • Deep...
Transcript of Deep Winter Greenhouses: Passive solar production ... · Deep Winter Greenhouses: ... • Deep...
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Deep Winter Greenhouses: Passive solar production technology for Northern climates
A COMMUNITY-UNIVERSITY PARTNERSHIP
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What is a Deep Winter Greenhouse?
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How it all began• Producer developed and led innovation• Needed sturdy structures on MN prairie• Refining designs from 1980’s gas price
spikes• Collaboration with now SWRSDP
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Basic principles for passive solar greenhouse
• Minimizing costs with passive solar heat
• Uses readily available materials that are familiar to use
• DWG design is site-specific• Used for cool, low light crops
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Regional Sustainable Development PartnershipsTheory of change
– Solutions to today’s pressing issues need both community innovation and knowledge and university expertise
– Community is a source of innovations that can inform and support University research
– There is a need to connect community and University resources
– Community driven issues are inherently interdisciplinary
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Clean energy and climate adaptation
•
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Food deserts, Food Access, Farm Diversification
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From the Ground Up
(Carol Ford, 2010)
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Ready to Grow!
(Carol Ford, 2010)
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Growing in the ground, and in the air
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Ryan Pesch/ Lida Farm
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Paradox Farm
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AND MORE…
(Carol Ford, 2010)
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AND MORE…
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(Carol Ford, 2010)
AND MORE…
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RSDP DWG work• Cold Climate Greenhouse Resource
Manual (SE RSDP, College of Design CSBR, Eagle Bluff Env Learning Ctr)
• Extension block grant (College of Design CSBR)
• DWPA forming as a networking group with (SW RSDP, Bush Foundation, SFA)
• MN Drive Global Food Ventures (hortresearch, enterprise analysis, producer profiles, networking)
• DWG Campaign (IonE)• Engaging with students (Design)
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Deep Winter Producers Association
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Economic Performance• Looked at 7 greenhouses• Many end goals (education,
research, production)• Median construction cost
$20,578• Net earnings ranged from ($5/hr)
to $20/hr (averaging 10 -13 hours/week)
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Future Needs and Research Opportunities
• Prototype DWGs for prospective technology adopters• How to increase production in existing greenhouses• DWG production curriculum • Scaling up the model• Different crops • Soil mixes• NRCS DWG in EQIP Program
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Thank You
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MNDRIVE: Reinventing Year-Round
Food Production in Minnesota
Liz PerkusM.S. Student - Applied Plant Sciences, UMN
John Erwin, Esther Gesick, Greg Schweser
Plant and soil health:Carl Rosen, Julie Grossman, and Mary RogersHuman Nutrition:Justin Carlson and Joanne Slavin
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Project objectives:1. Quantify environmental differences between
• Conventional greenhouses (C)• Deep Winter greenhouses (DW)
2. Determine how greenhouse environment affects crop growth and yield
• Temperature• Light• CO2
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Greenhouse SitesConventional Greenhouses:
1. Bachmans2. Bergens3. Engwalls4. Pork and Plants5. Tangletown Gardens6. UMN Twin Cities
Deep Winter Greenhouses:A. Garden GoddessB. Lida FarmC. Paradox Farm
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The Experiment:• Selected existing greenhouses around the state (C–6, DW–3)• Identified 5 crops to be grown at all sites
• Distributed seed, pots, and a scale• Sites used own media and fertilizer
Mesclun Mix:
ArugulaRed Giant Mustard
MizunaStrawberry “Albion” Kale “Red Russian”
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Data Collected:• Production information• Fresh weight at harvest• Temp and light intensity every 15 min• Photosynthetic response curves
WatchDog 2475 Plant Growth Stations (Spectrum Technologies, Inc., Aurora, IL)
LI-6400XT Portable Photosynthesis System (LI-COR Inc., Lincoln, NE).
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Mesclun Mix Yield
0100200300400500600700800
Arugula Mizuna Red Giant Mustard
Fres
h w
eigh
t (g)
Deep Winter
Conventional
1 pound
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There is one resource that is fundamental
to greenhouse plant production
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Conventional Heated Greenhouse Daily TemperatureNovember – December 2014
75⁰F
50⁰F
Tem
pera
ture
Time
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Deep Winter Greenhouse Daily TemperatureNovember – December 2014
75⁰F
50⁰F
114⁰F
95⁰F
Tem
pera
ture
Time
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p = 0.025 p < 0.001
Conventional (n=6)
Conventional (n=6)
Deep Winter(n=3)
Deep Winter(n=3)
Average daily high Average daily low
Days in Jan 2015 Days in Jan 2015
Ave
rage
max
(⁰C)
Ave
rage
min
(⁰C)
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Photosynthesis
Sunlight
Water
CarbonDioxide
Oxygen
Sugar
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Measuring photosynthesisLight curve CO2 Curve
Light(μmol m-2 s-1)
0, 100, 200, 400, 600, 800, 1000, and
1200
300
CO2(ppm)
400 50, 200, 400, 600, 800, 1000, and
1200
Temperature (⁰C)
20 20
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p = .293
Pho
tosy
nthe
sis
Rat
e
Light
DW
C
Light Response Curve - Kale
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CO2 Response Curve - Kalep = .224
Pho
tosy
nthe
sis
Rat
e
CO2
DW
C
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Conclusions:• Deep winter greenhouses
are productive!• Very important to manage
temperature on sunny days
• Production could increase with supplemental CO2
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Acknowledgements• Undergraduate assistants: Julian Esparza, Victoria Hoeppner, Lindsey Miller, Sonora Nolan-Rapatz,
Sam Voss• Graduate students: Peyton Ginakes, Dan Raskin, Jared Rubenstein, Aimee Talbot • Scientists: Esther Gesick and JiJY Sooksa-Nguan• Deep winter greenhouse sites: Garden Goddess, Lida Farm, Paradox Farm• Conventional greenhouse sites: Bachman’s, Bergen’s, Engwall’s, Pork and Plants, Tangletown
Gardens• Minnesota Fruit and Vegetable Growers Association, Minnesota Nursery and Landscape Association• Seward Cooperative, Lunds & Byerlys, Kim Barton
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Questions?
Liz Perkus - [email protected]
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DWG design development2013:Cold-Climate Greenhouse ResourceIncluded winter greenhouses around MNSurveyed various heating systemsSurveyed multiple scalesSurveyed multiple
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DWG design development
DESCRIPTION
Cover sheet DRAWN BY
DHISSUE
2013.12.31PROJECT NO.
RSDP-EBGH PROJECT
Winter
Greenhouse
CLIENT
Eagle Bluff ELC 01
Cold-Climate Greenhouse at Eagle Bluff ELC
Schematic Design (Dec. 2013)
2013:DWG design for Eagle Bluff ELCDesigned to capture winter solar heat gainDaytime heat stored in rock bedForced-air circulationTeaching greenhouse
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High-performance Greenhouse design
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http://minnesota.cbslocal.com/2013/12/19/newest-habitat-for-humanity-house-is-net-zero/
Net-Zero home $$$Designed for human comfort and health
Designed for year-round use @ constant temp.Uses passive and active solar systems
Some storage (DHW)Insane amounts of insulation
Designed to generate as much power as it uses
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http://z4z.thirdculture.com/2010/03/03/spring-time-in-hoop-house/http://minnesota.cbslocal.com/2013/12/19/newest-habitat-for-humanity-house-is-net-zero/
Net-Zero home $$$Designed for human comfort and health
Designed for year-round use @ constant temp.Uses passive and active solar systems
Some storage (DHW)Insane amounts of insulation
Designed to generate as much power as it uses
Hoop house $
Designed for plant comfortDesigned for season extension (spring and fall)
Uses passive solar gainNo heat storage
No insulation
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http://z4z.thirdculture.com/2010/03/03/spring-time-in-hoop-house/http://minnesota.cbslocal.com/2013/12/19/newest-habitat-for-humanity-house-is-net-zero/
DWG $Designed for plant comfort and human health
Designed for winter use Uses passive and active solar systems
Some storage (thermal mass)Sensible amounts of insulation
Designed to minimize supplemental heating fuel usage.
Net-Zero home $$$Designed for human comfort and health
Designed for year-round use @ constant temp.Uses passive and active solar systems
Some storage (DHW)Insane amounts of insulation
Designed to generate as much power as it uses
Hoop house $
Designed for plant comfortDesigned for season extension (spring and fall)
Uses passive solar gainNo heat storage
No insulation
http://www.ceresgs.com/
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Initial research questions• How to optimize solar heat gain in deep winter?• How to retain heat?• How to improve construction details?
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Heat captureor
Heat gain
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Optimizing heat gain: Glazing angle
DRAWN
BY
DH
RE-I
SSU
E
13.1
2.3
1
ISSUE 13.12.31
PR
OJE
CT
Eagle
Blu
ff
Gre
enhouse
PROJECT
NO.
RSD
P-EBGH
a
DESC
RIP
TIO
N
Sections
2
2a3
3a3
Section through main growing space1/8"=1'
3
a2
Section through West entry1/8"=1'
2
a2
North elevation1/8"=1'
1
a2
THIS DOCUMENT IS FOR ILLUSTRATION ONLY; NOT INTENDED FOR CONSTRUCTION.
Solar heat gain is best when rays come in perpendicular to the glazing.
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Optimizing heat gain: Glazing angle
DRAWN
BY
DH
RE-I
SSU
E
13.1
2.3
1
ISSUE 13.12.31
PR
OJE
CT
Eagle
Blu
ff
Gre
enhouse
PROJECT
NO.
RSD
P-EBGH
a
DESC
RIP
TIO
N
Sections
2
2a3
3a3
Section through main growing space1/8"=1'
3
a2
Section through West entry1/8"=1'
2
a2
North elevation1/8"=1'
1
a2
THIS DOCUMENT IS FOR ILLUSTRATION ONLY; NOT INTENDED FOR CONSTRUCTION.
Solar heat gain is best when rays come in perpendicular to the glazing. Glazing wall should
be sloped at 60º to optimize deep winter heat gain.
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Optimizing heat gain: Glazing angleSteep angle dumps snow, so less framing materials are needed, meaning less light is blocked.
30º angle with 2x8 24” o.c. 60º angle with 2x4 48” o.c. + purlinsElk’s Bluff Paradox Farm
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Optimizing heat gain: Glazing angle
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THIS DOCUMENT IS FOR ILLUSTRATION ONLY; NOT INTENDED FOR CONSTRUCTION.
Steep glazing wall can also help reflect
heat during the summer months.
Heat gain drops significantly when incident angle is >65º
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Conventional Heated Greenhouse Daily TemperatureNovember – December 2014
75⁰F
50⁰F
Tem
pera
ture
Time
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Deep Winter Greenhouse Daily TemperatureNovember – December 2014
75⁰F
50⁰F
114⁰F
95⁰F
Tem
pera
ture
Time
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How to retain heat?• Thermal mass
– Heat transfer to and from thermal mass• Insulation • Airsealing (construction detailing)
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Heat storage
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Optimizing heat storage: Thermal mass Thermal mass absorbs and releases heat
to stabilize the temperature.
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Optimizing heat storage: Thermal mass • Rock vs. Water
– Rocks are cheap– Air is cheap
and simple to move• Basic design is air
pushed through a bed of rocks.
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Heat transfer: Airflow through rock bedSeeking to maximize contact of air with rock surface, how do you encourage air to move through entire thermal mass?
“Finger-jointed” duct layout maximizes pathways for air to travel through rock bed.
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Heat transfer: Airflow through rock bedSeeking to maximize contact of air with rock surface, how do you encourage air to move through entire thermal mass?
“Finger-jointed” duct layout maximizes pathways for air to travel through rock bed.
Return (COOL)
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Heat transfer: Airflow through rock bedResistance to airflow = $$ for electricity for fansTypical duct layout to reduce friction: Trunk and branch
Fairacre Farm, Iroquois, SD
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Optimizing heat storage: Heat transfer• Duct fan placement
– More efficient to move cool dense air vs. hot air at peak.Return (COOL)
Inline fan here
Not here
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Optimizing heat storage: Heat transfer• Humidity
– Latent heat is released to rocks upon condensation.– BUT possible danger of mold/microbial growth.
• No record of indoor air quality problems with greenhouse
underground heat storage.• Very problematic in residential use for IAQ.• Good design can mitigate problems, but is an area where more
study is needed.
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Heat retention
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Insulation around thermal mass
• Insulation is most useful when there is a large difference in temperature.
• In MN, frost depth is ~40in. (below that, temp is relatively stable 50ºF)
• Thus, insulation investment is best at perimeter of thermal mass, NOT underneath.
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Optimizing heat storage: Insulation
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Insulation above grade
• North wall and roof are most crucial. – North wall because 0 thermal gain occurs.– Roof because thermal pressure is greatest.
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Energy Audits performed on 3 DWG’s
• Blower door test (measures draftiness)• IR camera readings (show where drafts are)• Recommendations
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Energy Audits performed on 3 DWG’s
• Elk’s Bluff, Montevideo• Lida Farm, Pelican Rapids• Paradox Farm, Ashby
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Good news from Energy audits! IR camera shows that thermal mass is working.
Floor temperature of 79ºF
Outside air temperature 62ºF
Inside air temperature of 71ºF
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Site Volume ACH@50 ACHnat
Elk's Bluff 4488 4.34 0.31
Lida Farm 6912 14.37 0.84
Paradox Farm 4450 20.65 1.2
Other news from Energy audit: Blower door shows two of three greenhouses are drafty.
Higher numbers indicate more drafts
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IR camera shows where leaks are.
Darker spots show cold air infiltration
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Keeping the heat in: AirsealingOnly a few sealants are compatible with polycarbonate!
• Henkel PL Ultimate Hybrid Sealant• Franklin Int’l. Titebond 100% Silicone Sealant• Franklin Int’l. Titebond Metal Roof Sealant• BASF Degabond 54 Structural Adhesive• Tremco Dymonic Polyurethane Sealant• DAP, Inc. 100% Silicone Rubber Sealant (50yr.)
http://www.palramamericas.com/docs/files/File/PC_Sealant_Compatibility.pdf
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Improving construction details• Minimize dangers of condensation• Durable, healthy materials
– Low-impact materials
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Minimize condensation dangers• Humidity is expected and necessary• Condensation can rot structure• Can cause mold / microbe growth
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Follow-up research• More energy audits to increase data pool.• What presence, if any, of airborne microbes/mold
that could affect human health?• How to effectively integrate nighttime insulation into
structure?
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RSDP Prototype document format• Narrative on system selection.• Reasoning for design aspects.• Construction document set for modest 450-
500ft2 standalone greenhouse.• Material cost estimates. (~$15,000)• Expected completion Dec. 2015.