CASH
LANGFORD
PORTFOLIO
CASH
RÉSUMÉ Education
LANGFORD
339 Greene Avenue, 10H, Brooklyn, New York langford.cash@gmail.com (806) 277-0036
MLA, Spitzer School
of
Graduate Certificate,
Architecture, GIS,
Texas
BS, Agricultural Economics, Work Experience
Barista, East One Coffee New York, NY Sales Associate, Phoenix New York, NY
Lawn
Teaching Assistant, Lubbock, TX
&
Texas
Junior Designer, Prairie Lubbock, TX Designer, Diversified Lubbock, TX Skills
Acknowledgments 1
Tech
Texas
University,
Tech
Roze
2015
University,
Roasters
Special Projects Assistant, New York, NY Designer, Gladden Lubbock, TX
2020
2017 - 2019 Mar - Present 2016 - 2017 Nov - Mar
Jewelry
Tapad
2016 - 2017 Aug - Feb
Landscape Tech
2016 - 2016 Feb - July
University
Workshop
Sub-Surface
2015 - 2015 Aug - Dec
LLC
2015 - 2015 Mar - July
Irrigation
2013 - 2015 Aug - Mar
Digital Drawing, Modeling Rhino 3D, SketchUP, Autocad, ArcMap, Digital Creative Photoshop, Illustrator, InDesign Barcelona Landscape Architecture BioDesign - Pre Finalist
2011
Laser
Biennial
Cutting
2018
TABLE Student Work
Design Studio I Design Studio II Design Studio III
Professional Work
-
3-10
CCNY -
11-18
CCNY Systems
Grading and Drainage
CCNY
-
Digital
Modeling
Briscoe Residence Lubbock Christian
CONTENTS
CCNY
Geographic Information
Hand Drafting,
OF
19-22 -
TTU
23-24 25-26
and
Rendering
-
TTU
27-30
31-32 University
33-34
2
Studio
I
-
BioDesign
1. CELLULAR: Cellular Respiration of Yeast
Studio BioDesign was derived from the emerging field bridging biology and design. BioDesign is unique in its integration of living organisms as essential design components. The biological world is seen rather as medium, as dynamic processes to inform, propel, and manipulate in a comprehensive design proposition. Approaching the design process through a multi-scalar sequence from the cellular to the corporeal to the collective, Studio BioDesign engaged the full entanglement of scientific, economic, social, political, environmental, and ethical actors through the converging lenses of biology and landscape architecture in envisioning alternative relationships between society and the biological ‘other.’ Beginning at the cellular scale, the focus was on an organism and its respective biological processes. What resulted was a series of investigations in the processes of fungi in the form of yeast. This allowed for a more enriched understanding of the interconnected symbiotic relationships in the biological world. Techniques used to explore biological systems include modeling, collage, sketch, and Adobe Suite.
Pyruvate Oxidation
Oxidative Phosphorylation
glycolysis
Pyr u mo vate lec ule s
CO
NA 2
DH
FA D
H2
AT P
Citric Acid Cycle 3
Active
Cellular Reproduction of Yeast in Response to it’s Environment
Anaerobic Respiration
Dormant
Aerobic Respiration
Fission
Reproduction
Hot
Mild
Anaerobic Respiration
Budding
Cold
4
2. CORPOREAL: Sense Through Prosthesis As a primer to the corporeal section, the human senses of taste, touch, and hearing were explored through creating perceptual diagrams to visualize each sense experience.
Hearing
Taste Elevation A Scale= 1:1
Elevation B Scale= 1:1
Contour
A
Scale= 1:1
Section A
A
1/8” 0”
Touch
5
14 13 12 11 10 9 8 7 6 5 4 3 2 1 pH 0
pH Sensing Suit Human sense exploration gave way to a study of the area in which sense perception, biological sciences, and design intersect. Further development allowed this exploration to result in a human scale prosthesis or tool that could be utilized in a landscape environment. In this scenario, water bodies that were growing more acidic due to anthropogenic pollution needed to be investigated. Extracting anthocyanin, a water-soluble pigment found in cabbage, a suit of pH indicator tabs was constructed to monitor the changing pH of water bodies. Indicators would be placed in different locations and the pH value would be read by a GIS coordinate map. pH=1
pH=2
pH=3
pH=4
pH=5
pH=6
pH=7
pH=8
pH=9
pH=10
pH=11
pH=12
6
3. COLLECTIVE: Leveraging of Biological Processes Terrestrial forms were studied such as sedimentation, tectonic movement, mass wasting, coastal erosion, fluvial movement, and aeolian drift. The forms came together in a collaborative landscape model. The model provided a landscape to explore anthropogenic forces and possible biological interventions.
Mass Wasting
Mass Wasting Terrain Model
Plaster
Clay
Sand
Sand
7
A fictional landscape was developed to explore a site scale investigation through the lens of an identified biological community/collective. The fictional site was imagined as an inhabitable space with experiential qualities.
Wind Direction
Context Map
A new refinery constructed in Costa de Nubes Frias has led to an increase of hydrogen sulfide (H2S) concentration levels. Due to wind patterns and the refinery location, H2S levels are most concentrated in the low-lying areas southeast of the refinery. A mass of ancient cave dwellings that are precious to the Nubes Frias people is collecting with H2S gas.
Oil Refinery
Ancient Cave Dwellings
As a result, visitors attracted to the cave structures and foothills for their history have been deterred because visiting the site has been deemed a major health hazard. Spurred by the influx of H2S escaping the oil refinery, a microbial mat of Acidithiobacillus thiooxidans bacteria, or snottite, has formed on the roof and walls of the dwellings. The bacteria oxidize H2S resulting in the byproduct of sulfuric acid (H2SO4), which is accelerating the erosion of the ancient dwellings. Nubes Frias residents have banded together to find a way to make the area accessible again and to halt the erosion of the caves. An experimental strategy has been derived to place inoculated biofilters between the refinery and the dwellings to intercept the H2S. As the bacteria oxidizes the H2S, sequestering it from the atmosphere, H2SO4 will trickle down the filter into a reservoir tank. The H2S04 can then be utilized in a variety of agricultural practices.
Hydrogen sulfide gas is found in petroleum and natural gas.
Site Map
Atmospheric releases of hydrogen sulfide represent the most significant public health concern for the geothermal energy industry. Hydrogen sulfide is heavier than air, and it often settles in lowlying areas where it can accumulate in concentrations that can injure or kill livestock,
Cave Section Sulfuric acid dripping down cave wall
Acidithiobacillus thiooxidans
Bio-filter formation
H2S Sulfuric Acid
H2S
H2S The principal source of anthropogenic hydrogen sulfide is as a by-product in the purification of natural gas and refinement of crude oil.
Cave Dwellings N 8
Sulsnoottite /’sul-’snut-’tit/
Acidithiobacillus thiooxidans
O2 O2
Ceramic filter media
H2S
O2
Sulfuric Acid
Acidithiobacillus thiooxidans culture
9
Sulfuric acid to be used in agricultural practices to improve range grass establishment and growth
Acidithiobacillus thiooxidans inoculated porous ceramic bio filter. H2S
Pourous filter media material study H2S
H2S
Oxidation of hydrogen sulfide within bio filter results in trickling down of sulfuric acid.
O2 O2 O2
Sulfuric acid catch basin. Capacity ≈ 12g
10
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12
Cellular City Intervention A disconnect from rural microbiota was discovered from exploring the timeline of sanitation. There is a culture of rural microbiota that is practically non-existent in the urban fabric. A new urban framework can be introduced to reintroduce rural microbiota that connects opportunities for microbial diversity by applying a micro lens to macro decision-making.
farmlet flatpack 13
Before institutionalized sanitation, New York City residents lived in proximity to animals like cows, pigs, and chickens. The sanitary movement decreased the presence of harmful bacteria due to masses of excrement animals in the streets. However, sanitation also wiped the city of beneficial bacteria provided through contact with animals. The Farmlet Flatpack provides a microbial junction for children to increase their microbiome diversity.
Microbrial hot spot The primary objective of the Farmlet Flatpack is to provide an accessible microbial junction for children to increase thier microbiome diversity. Children will come to the Farmlet Flatpack to play and learn with the Angora goats. In the process, they will come in contact with bacteria through inhalation and skin contact.
Good bacteria • • • •
Lactobacillus Streptococcus Bifidobacterium Enterococus
Social Benefits Research has shown that interacting with animals results in a wide array of social benefits. The Angora goats will act as companion animals to children that live in neighborhoods that have lower pet populations.
• Increased engagement • sense of motivation and responsibility • build supportful and trustful relationships • physical activity • new skills and knowledge
14
The Farmlet Flatpack was created as a tool to be deployed in microbial deserts to generate microbial diversity.
vacant lots 0
3
Rooftops > 2,000 sq. ft. 6 Mi
optimal zones: farmlet flatpack 0
3
6 Mi
Lowest dog Pop. per capita 0
3
farmlet flatpack — map summary The Farmlet Flatpack is easily depoyable in city vacant lots and suitable rooftops.
Legend Lot Vacant 15
Legend > 2,000 sq. ft. Rooftop
Rooftop > 2,000 sq. ft. Legend
6 Mi
0
3
6 Mi
The Farmlet Flatpack can be deployed on any vacant space that is larger that 800 square feet such as a vacant lot or rooftop that will permit the weight. The three placements are located in the New York zip code 10459 in the Bronx. This zip code has microbial diversity having one of the lowest dog populations per capita at 0.0057 for every one person.
farmlet flatpack— deployment strategies The Farmlet Flatpack can be deployed an any vacant space that is larger that 800 square feet. Above are three instances of where the Farmlet Flatpack can be placed in an unused vacant lot or a rooftop that will permit the weight. The three placements are located in the New York zip code 10459 in the Bronx. This zip code has one of the lowest dog populations per capita at 0.0057 for every one person.
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The Farmlet Flatpack seeks to be more than a petting zoo through its engaging, hands-on educational programming as well as through its unconventional design. Inspiration for the perimeter structure is derived from the Giant House of Cards designed by Charles and Ray Eames in 1953. The 4x8 1/4” steel panels are slotted together to construct the fencing, housing and storage structures of the Farmlet Flatpack. The arched hay feeder is influenced by popular PLINKO game featured on The Price is Right. Hay bales will be slotted in at the top and make their way to the bottom of the arc as the goats consume the hay.
farmlet flatpack — slot design 17 The Farmlet Flatpack seeks to be more than a petting zoo through its engaging, hands-on educational programming as well as through its unconventional design. Inspiration for the perimeter structure is derived from the Giant House of Cards designed by Charles and Ray Eames in 1953. The 4x8 1/4” steel panels are slotted together to construct the fencing, housing and storage structures of the Farmlet Flatpack. The arched hay feeder is influenced by popular PLINKO game featured on The Price is Right. Hay bales will be slotted in at the top and make their way to the bottom of the arc as the goats consume the hay.
The Farmlet Flatpack is designed to be modular and assembled on site. The components of the Farmlet Flatpack are crated and transported by truck.
x 2
x 21
x 2
x 2 x 7
x 1
x 6
x 42
x 3
x 4
x 1
x 1
x 3
x 1
farmlet flatpack The Farmlet Flatpack is designed to be assembled on site. The components of the Farmlet Flatpack are crated and transported by truck. *Do not crate goats.
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CIRCULATION 150’
S t u d i o III - Pleasantville
The
Small & Mighty Civic Spaces
T
n
Memorial Plaza in Pleasantville, New York has been transformed from a sea of commuter to a gathering space for the community that is now a worthy location for the village’s war memorials. The Pleasantville Axis has five distinct zones that enable a wide range of programming in a strong design framework. The five zones: The Wrap Around, Bustle, Bend, Solemn, and Wondering Woodland, each support activities day to day and for special events 150’yearround. The Wrap Around provides increased accessibility to the many restaurants and shops. The Bustle provides ample space for Pleasantville’s commuting needs by providing planted bench seating and large covered canopy. The Bend features a lush green space for relaxing and watching outdoor movies. Additionally, The Bend is a flexible space that accommodates a wide range of events: the farmers market, food trucks, or a winter market. 150’ Existing war memorials on the site are relocated within The Solemn to allow visitors a beautiful and contemplative space in the connected Wondering Woodland.
DIVERSE PROGRAMMING
n
Th
The Wrap Around
CIRCULATION
The bustle
the bend
The solemn
The wondering woodland
DIVERSE PROGRAMMING DIVERSE PROGRAMMING The bustle
The Wrap Around
the bend
The wondering woodland
The solemn
The wondering woodland
v t n a s a e The Pl n
M a nv
DIVERSE PROGRAMMING FLEXIBLE PARKING The solemn
WEEKEND
The wondering woodland
EVENT
WEEKDAY
WEEKEND
EVENT
1:40
WEEKDAY
the bend
n
The bustle
n
The Wrap Around
1:40
FLEXIBLE PARKING
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oadoad R e l l i v Man ille R
FLEXIBLE PARKING
The bio basin
1:40
The bio basin
n 1:40
150’
a o R e l l i M a nv
n
1:40
n
The bio basin
The bustle
The solemn
d
The Wrap Around
the bend
G
e e r t S ra n t
Gnrta
G ra
e l l i v t n a s a he Ple
t S t re
s i x A
e et
N 1:10
tr G ra n t S
et
20
How The Axis Feels and Works 2
B
A 21
A
1
2
C
N
1
B A
N
A
1
2
C
B
C 4. OVERFLOW
5. STORAGE
1. COLLECTION
2. OVERFLOW
1. COLLECTION
2. REDIRECT 3. INFILTRATION
3. INFILTRATION 1/8” = 1’-0”
1/8” = 1’-0”
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Cash Langford - Fall 2018 - LAAR 63100
Today, 54 percent of the world’s population lives in urban areas, a proportion that is expected to increase to 66 percent by 2050. With the movement towards rapid urbanization not showing signs of slowing, it is likely that green space in urban areas will continue to be threatened by development. This map is the visual representation of an examination of the change in land cover of the five boroughs of New York City. The study examines the land cover changes from 2001 to 2011. Classification maps from the National Land Cover Database (NLCD) were used to provide the most recent national land cover product created by the Multi-Resolution Land Characteristics (MRLC) Consortium. The focus of the land cover examination were areas that are currently established, areas being developed, and areas being reverted back to vegetation. The results show that the majority of the area in New York City is developed with there being a small area of barren land reverted to vegetation and no developed area reverted to vegetation. However, the results are not completely discouraging. Many efforts such as the High Line, MillionTreesNYC, Hudson River Park, and the Low Line were not realized before 2011. As more city dwellers become aware of the health concerns associated with global urbanization, I hope to see vegetation increase in tandem with population as more recent data becomes available.
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The goal of this project was to create a geodatabase (GDB) design that would be an aid to assist me in locating the most suitable areas to live within the five boroughs of New York City. The Brooklyn GDB contains data of common factors that influence the typical housing location decision process such as median income data, and distance from parks and subway entrances. In order to visualize my findings I utilized a ranking scheme to rank criteria from very low to very high suitability. The result is a map of the range in suitability of all the area of New York City.
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Briscoe
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Residence
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Lubbock
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Christian
University
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