Carbon Sequestration Potential From Emerging MOF Technology by Jordan Hedlund

2021 College of Design Research & Creative Scholarship Showcase “Carbon Sequestration Potential From Emerging MOF Technology” Jordan Hedlund 02/12/2021

M.O.F. EXPERIMENTAL PLANTING BEDS

UNIVERSITY OF MINNESOTA

LA 8774 INFRASTRUCTURE 4 JESSICA ROSSI-MASTRACCI

ASSIGNMENT #3

NO CONSTRUCTION START UNTIL FURTHER REVIEW.

OR CONTRACTOR PROPOSING TO CONSTRUCT WORK. IT IS ADVISED THAT

AND SHOULD BE REVIEWED BY A LICENSED LANDSCAPE ARCHITECT AND/

DRAWINGS HAVE BEEN CREATED TO HELP GUIDE THE DESIGN PROCESS

BY A STUDENT UNDER THE GUIDANCE OF PROFESSIONALS AND FACULTY.

HIMSELF. MOREOVER, THE ATTACHED DRAWINGS HAVE BEEN CREATED

ARCHITECT. JORDAN HEDLUND IS NOT A LICENSED LANDSCAPE ARCHITECT

DRAWINGS, HAVE NOT BEEN REVIEWED BY A LICENSED LANDSCAPE

INNOVATIVE MATERIALS

THESE DOCUMENTS, CREATED BY JORDAN HEDLUND, AND ASSOCIATED

Metallic Organic Frameworks (MOF) is a new emerging technology that leverages the power of naturally occurring high energy reactions of atomic metal structures. As our understanding of these structures has grown we can use them to extract certain chemicals from the air and water at very high concentrations and efficiencies. The molecules that get attracted are called “guest molecules” and depending on the MOF, different guest molecules can be harvested. The specific MOF being proposed for this project is one called a Porous Coordination Polymer (PCP) and it uses Zinc to attract carbon atoms out of air. The molecules arrange on a substrate via an epoxy layer in a form similar to a series of fan blades. As air moves through the substrate, the “fans” trap CO2 until it becomes very concentrated on the surface. The Epoxy is removed and through a series of heat, pressure, and centrifuging the carbon is separated. From there polyurethane can be made and be used in the manufacturing process. What makes this type of MOF so appealing is that not only can the epoxy be applied to almost any type of structure, but it could possibly be 10x more efficient at collecting carbon than other MOF’s, and the epoxy can be reused without depletion of the carbon yield.

JORDAN HEDLUND

DATE: 12/10/20 VERSION: DRAFT 1

Research Website Sources

news.berkeley.edu

• https://www.ecowatch.com/carbon-sequestration-2461971411.html#toggle-gdpr • https://www.nature.com/articles/s41467-019-12414-z.epdf?author_access_token=g12H4pcJxR-RL3LofkuWndRgN0jAjWel9jnR3ZoTv0NuhAZj0L LfvPJwlerCxkKXEXGCGBSMii1BpXjxlo6M_SEXb25BswEZ1-rmZbbPwoMaGPhT18RY4BBU4x8QqXSXItp0KyFqPKsuzGF5GHqW8w%3D%3D

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• https://www.sciencealert.com/scientists-create-a-material-that-converts-co2-into-useful-organic-matter • https://www.icems.kyoto-u.ac.jp/en/news/4963 BACKGROUND

• https://en.wikipedia.org/wiki/Coordination_polymer#Applications • https://en.wikipedia.org/wiki/Metal%E2%80%93organic_framework#Carbon_capture

P. 1

fig. 3

JORDAN HEDLUND UNIVERSITY OF MINNESOTA

LA 8774 INFRASTRUCTURE 4 JESSICA ROSSI-MASTRACCI

ASSIGNMENT #3

NO CONSTRUCTION START UNTIL FURTHER REVIEW.

OR CONTRACTOR PROPOSING TO CONSTRUCT WORK. IT IS ADVISED THAT

AND SHOULD BE REVIEWED BY A LICENSED LANDSCAPE ARCHITECT AND/

DRAWINGS HAVE BEEN CREATED TO HELP GUIDE THE DESIGN PROCESS

BY A STUDENT UNDER THE GUIDANCE OF PROFESSIONALS AND FACULTY.

HIMSELF. MOREOVER, THE ATTACHED DRAWINGS HAVE BEEN CREATED

ARCHITECT. JORDAN HEDLUND IS NOT A LICENSED LANDSCAPE ARCHITECT

DRAWINGS, HAVE NOT BEEN REVIEWED BY A LICENSED LANDSCAPE

THESE DOCUMENTS, CREATED BY JORDAN HEDLUND, AND ASSOCIATED

INNOVATIVE MATERIALS

DATE: 12/10/20 VERSION: DRAFT 1

Scalable Textures

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Twining Plants

Inspiration for this project came from Collin Wenberg’s project “To Imbue Resurgence”. In this project (fig.1 & 2) he proposed the construction of different styles of walls, latices, and vertical posts to promote vine growth. Each variety of vine grows differently and requires certain types of structures to climb. This material is being proposed for the North Minneapolis Technical Workforce Center. At the center, students will study the performance of the material as a structure for both indoor and outdoor vine growth. Beyond that, the performance of the material and structure system will hopefully create a foundation for further research about the emerging technology. The process shown in Fig. 3 shows how the structure would act in the overall life cycle. The process would be to deconstruct the assembly, remove epoxy from the individual pieces, remove carbon from epoxy, reapply epoxy to the pieces, then put the assembly back together. The Polyurethane would then be collected and reused, essentially making products from thin air. Some of these products could be polyester for clothing, to foams, to shoes. In theory, once enough polyurethane is generated from the first model, it could be used to manufacture the subsequent panels, posts, and latices.

NARRATIVE Benefits and Attributes

Sunlight (Hours)

Water (Inches per Week)

Growth Habit Twining Stems

Tendrils

Adventitious Roots

Scrambler

fig. 1

fig. 2

(Wenberg, 2020)

Soil (Ph) 1

Growth Habit Twining Stems

Tendrils

Adventitious Roots

Scrambler

- Holds water on-site - Fixes Nitrogen in the leaves - Helps reduce ambient temperature - Competes well with Trumpet Honeysuckle - Herbaceous plant - Drought tolerant

P. 2

PANELS

POSTS

LATTICES

JORDAN HEDLUND UNIVERSITY OF MINNESOTA

LA 8774 INFRASTRUCTURE 4 JESSICA ROSSI-MASTRACCI

Water (Inches per Week)

Soil (Ph) 1

Growth Habit Twining Stems

Tendrils

Adventitious Roots

Scrambler

(Wenberg, 2020)

2’ square panels easily (de)construct with a standard plate and bolt system.

(Inches -Water Holds water on-site per Week) 1 3 4 5 - Fixes Nitrogen in 2the leaves - Helps reduce ambient temperature Soil (Ph) - Competes well with Trumpet Honeysuckle - Herbaceous plant Habit -Growth Drought tolerant 1

Twining Stems

Tendrils

Adventitious Roots

Scrambler

(Wenberg, 2020)

12” long dowels (un)screw and are spaced 1” apart for optimal plant tendril attachment.

Benefits and Attributes

Water (Inches - Drought Tolerant per Week) 1 2 3 - Not an aggressive competitor - Attracts wildlife Soil (Ph) - Woody plant 1

Growth Habit Twining Stems

Tendrils

Adventitious Roots

Scrambler

(Wenberg, 2020)

Lattice slats slide up and out, and are spaced 1” apart for scrambling vine growth.

- Attracts wildlife - Competes well with Trumpet Hone - Shallow roots mean less water int - Drought tolerant - Herbaceous plant NO CONSTRUCTION START UNTIL FURTHER REVIEW.

OR CONTRACTOR PROPOSING TO CONSTRUCT WORK. IT IS ADVISED THAT

AND SHOULD BE REVIEWED BY A LICENSED LANDSCAPE ARCHITECT AND/

DRAWINGS HAVE BEEN CREATED TO HELP GUIDE THE DESIGN PROCESS

BY A STUDENT UNDER THE GUIDANCE OF PROFESSIONALS AND FACULTY.

Sunlight (Hours)

HIMSELF. MOREOVER, THE ATTACHED DRAWINGS HAVE BEEN CREATED

INNOVATIVE MATERIALS

Benefits and Attributes

Sunlight (Hours)

ASSIGNMENT #3

Cape Leadwort (Plumbago aurculata)

ARCHITECT. JORDAN HEDLUND IS NOT A LICENSED LANDSCAPE ARCHITECT

Trumpet Honeysuckle (Lonicera sem.)

DRAWINGS, HAVE NOT BEEN REVIEWED BY A LICENSED LANDSCAPE

Common Ivy (Hedera helix)

THESE DOCUMENTS, CREATED BY JORDAN HEDLUND, AND ASSOCIATED

This process can then be applied to a more specific approach, like at the workforce center and for plant growth. At the center, students and workers would construct and deconstruct different types of lattice, post, and panel assemblies. The assemblies would either have a footer mounted base or be modular on wheels to be moved around the site. By doing this, research can be gathered on whether assemblies gather more CO2 closer to roads, impact of the plant growth on CO2 harvesting, and the impact of the MOF on the plant’s growth. Due to the recyclability of the material, the studies can be done over and over again in many different situations. The idea of “Capture, Concentrate, Convert” can be taught in real time. Though the research to this point has yet to scale up to, the potential when it eventually does is huge.

DATE: 12/10/20 VERSION: DRAFT 1

SEE SCALE SCALED TO TABLOID

(De)Assembly

P. 3

PANELS

POSTS

LATTICE

JORDAN HEDLUND UNIVERSITY OF MINNESOTA

2-1/2” Dia. HDPE Post w/Attach.

1/8”x8” HDPE Lattice Slats

1” Dia. HDPE Spindles

2-1/2” Dia. HDPE Post With Grooves

LA 8774 INFRASTRUCTURE 4

1/8” Corten Steel Box, Welded

Wheel Or Footer Attachment

1/8” Corten Steel Panels

Wheel Or Footer Attachment

OR CONTRACTOR PROPOSING TO CONSTRUCT WORK. IT IS ADVISED THAT

1/8” Steel Sleeve, Welded

AND SHOULD BE REVIEWED BY A LICENSED LANDSCAPE ARCHITECT AND/

1/8” Steel Sleeve, Bolted

DRAWINGS, HAVE NOT BEEN REVIEWED BY A LICENSED LANDSCAPE

1-3/4” HDPE Panels

DRAWINGS HAVE BEEN CREATED TO HELP GUIDE THE DESIGN PROCESS

INNOVATIVE MATERIALS

BY A STUDENT UNDER THE GUIDANCE OF PROFESSIONALS AND FACULTY.

1/8” Steel Attachment Plates (Half)

HIMSELF. MOREOVER, THE ATTACHED DRAWINGS HAVE BEEN CREATED

ASSIGNMENT #3

ARCHITECT. JORDAN HEDLUND IS NOT A LICENSED LANDSCAPE ARCHITECT

1/8” Steel Attachment Plates (Full)

NO CONSTRUCTION START UNTIL FURTHER REVIEW.

JESSICA ROSSI-MASTRACCI

THESE DOCUMENTS, CREATED BY JORDAN HEDLUND, AND ASSOCIATED

The materiality of this product is meant to be durable, sustainable, and easy to (de)construct. The base options are either a direct bury footer or a wheel system, both standardized to easily attach to the underside of the planter box. The interior corten steel welded sleeve and panels come already attached and the customer can interchange the 3 systems: panels, posts, or lattice. The first version would be made out of molded HDPE, but after enough cycles of the system the polyurethane could be collected to potentially mold future models. All molds must have a maximum FEPA grit rating of P12-P36 to allow for the plant’s own tendril attachments. The panel system has a steel sleeve that bolts into the base prior to filling with soil. The 10 panels then attach via 16 steel plates and through-bolts. The post system comes with 3 posts that sit in the round sleeves and are bolted into place at the base. Then the 312 spindles (un)screw interchangeably on any post in any location. The lattice system consists of 5 posts (2 ends, 3 middles) that have groves for 252 lattice slats to drop into. Each row has 63 slats and gravity holds them in place Each system gets filled with 18” of potting soil after it is built for the first time, and the corresponding Ivy, Honeysuckle, or Leadwort get planted. Small weep holes are drilled into the base of the box for water drainage and the planter should be oriented so that it drains in the back.

DATE: 12/10/20 VERSION: DRAFT 1

Hedera helix Lonicera sem. Plumbago aurculata

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Full Size Scale

P. 4

Footing Option Notes: Ensure proper footer depth prior to pouring concrete. Footing post depth may vary depending on local frost depths. Prior to pouring footings, check to ensure that the steel box is level and plum in all directions.

UNIVERSITY OF MINNESOTA

LA 8774 INFRASTRUCTURE 4 JESSICA ROSSI-MASTRACCI

ASSIGNMENT #3

NO CONSTRUCTION START UNTIL FURTHER REVIEW.

OR CONTRACTOR PROPOSING TO CONSTRUCT WORK. IT IS ADVISED THAT

AND SHOULD BE REVIEWED BY A LICENSED LANDSCAPE ARCHITECT AND/

DRAWINGS HAVE BEEN CREATED TO HELP GUIDE THE DESIGN PROCESS

BY A STUDENT UNDER THE GUIDANCE OF PROFESSIONALS AND FACULTY.

HIMSELF. MOREOVER, THE ATTACHED DRAWINGS HAVE BEEN CREATED

INNOVATIVE MATERIALS ARCHITECT. JORDAN HEDLUND IS NOT A LICENSED LANDSCAPE ARCHITECT

DRAWINGS, HAVE NOT BEEN REVIEWED BY A LICENSED LANDSCAPE

Wheel Option Notes: Always lock wheels when not in use or moving. When moving, always push/pull from steel base, never from panels, posts, or lattices. Failure to do so may damage the system and cause it to fail. Never set planter, even locked, on sloped surfaces. Finished grades should never exceed 2%. If using inside, plug weep holes or roll onto a mat to collect water runoff.

JORDAN HEDLUND

THESE DOCUMENTS, CREATED BY JORDAN HEDLUND, AND ASSOCIATED

General Notes: Always maintain a minimum of 6” between planting beds and the faces of walls, both interior and exterior. Do not fill steel boxes with soil until structure has been fully assembled. Do not use heavy equipment to fill box or compact, shovel soil to fill. Use compressed air to clean grooves, slots, and threads before assembling.

DATE: 12/10/20 VERSION: DRAFT 1

SEE SCALE SCALED TO TABLOID

Section Assembly

P. 5

MINNESOTA

I N T. 6 9 4

.B W RO

HENNEPIN COUNTY

W H

E AV

I N T.

SISSIP

MIS PI RIV E

HIGH

WAY

NORTH MINNEAPOLIS WORKFORCE CENTER 1112 PLYMOUTH AVENUE

Creation of Zinc MOF and epoxy.

Build life size prototype.

Test and Research on site.

MINNEAPOLIS

1200 PLYMOUTH AVE: 0.99 Acres

1112 PLYMOUTH AVE: 0.72 Acres 31,448 sqft Surface Parking

1200 PLYMOUTH AVE

1112 PLYMOUTH AVE

Bus Routes: #5 - Connects Brooklyn Center to Bloomington via: North Minneapolis Downtown Minneapolis Chicago Avenue Corridor #7 - Connects Golden Valley to the MSP Airport in Bloomington via: North Minneapolis Downtown Minneapolis Minnehaha Corridor Proposed RTL D-Line in 2021

Project Site

5 &7 5 7

PROJECT LOCATION & TRANSIT 1112 PLYMOUTH AVENUE

CLIMATE

HABITAT

Project Site

Capture & Decentralize Water Corridor

Project Site

Re vegetate Canopy Corridor

Project Site

CORRIDOR PLANNING 1112 PLYMOUTH AVENUE

COMMUNITY

Habitat in Boulevards Corridors Project Site

The corridor planning and assessment for the North Minneapolis region shows many things. Through analysis of the layers voids throughout the city begin to emerge. Voids showing reduced tree canopy and reduced pervious surfaces. Also, the loss of pollinator and bird habitat create large vacant “dead” spaces. Finally, reduced access to the Mississippi River and concentrations of permits to pollute in low income areas.

Project Site

Habitat in Industrial Zone Corridor

Parkland Accessibility Corridors Project Site

Access & Equity

By overlapping layers of information a few key concepts come to light creating promising corridor strategies. First is climate resiliency and the mitigation of heat island and storm water run off. Second is the need for increased habitat that connect suitable areas of the city as we as returning industry to nature. Third is to ensure equal community access to nature and healthy environments throughout the city.

N FREEMONT AVE

PLYMOUTH AVE N

EXISTING SITE 1112 PLYMOUTH AVENUE

1:20

RIPRAP CHANNEL

N FREEMONT AVE

EV AT OR

UNDERGROUND PARKING ENTRANCE

BALCONY CE

AN R T

AN TR

PLYMOUTH AVE N

PROPOSED SITE PLAN 1112 PLYMOUTH AVENUE

1:20

Building Design: Hannah Packard, MArch

Location of MOF planters

PARKING ENTRY ON N. FREEMONT AVE 1112 PLYMOUTH AVENUE

1200 PLYMOUTH VIEW FACING EAST 1112 PLYMOUTH AVENUE

VIEW FROM BUS STOP 1112 PLYMOUTH AVENUE

VIEW FROM THE EAST 1112 PLYMOUTH AVENUE

MAIN ENTRANCE 1112 PLYMOUTH AVENUE