Bachelor of Science in Architecture and Minor in Business, 2021
Trustees Scholarship
Professional Experience
Manager
Mt. Healthy City Pool
Summers 2015-2019, 2023-2024
Interacted with customers and handled money
Maintained safety of patrons and cleanliness of pool and surrounding areas
Resolved conflicts and enforced rules
Architectural Intern
DTJ Design, Inc.
January 2022-April 2022
Participated in Intern Design Charrette Week
Involved with Research and Design Committee
Assisted in an array of project types in varying phases of design
Space and Facilities Planning Student Assistant
The Ohio State University Medical Center
March 2020-July 2021
Collaborated with architects and interior designers to determine space layouts
Worked extensively with wayfinding and signage projects in healthcare settings
Used AutoCAD to diagram spaces according to COVID social distancing guidelines
Assisted with administrative work using Microsoft Office
Architecture Digital Library Assistant
The Ohio State University
August 2018-May 2021
Responsible for the digital documentation of past and current student work
Cataloged projects from the Knowlton archive into the digital library’s website
Worked with a large format scanner to digitize projects of various mediums
Skills
Software
Adobe Creative Suite
AutoCAD
Revit
Enscape
Rhinoceros 3D
Microsoft Office
Mac and PC platforms
Technical
Physical model making
Hand drafting
3D printing
Laser cutting
Hannah
RESIDENTIAL
Urban Coworking Tower
FREESTANDING UNITS
Urban Village
pg. 4-6 pg. 7-10
Biophilic Homes pg. 13-14
Frontgate Avon
Masonry Institute
Distilling Covington pg. 11-12 pg. 18
Construction Analysis pg. 17 pg. 15-16
Urban Coworking Tower
Spring 2020
Collaborator: Alexandra Lammert
Professor: Michael Baumberger
Softwares: Rhino, Adobe Illustrator
This was a collaborative design project that consisted of the installation of a coworking tower on a site in downtown Columbus, Ohio. The building was required to include a supermarket, daycare, gym, and a large coworking and maker space that came together in a cohesive design.
For our project, my partner and I designed a tower that explored the merging of an exterior shell made up of pure, box forms with an organic interior atrium structure. The atrium “tree” created a unique manipulation of each rectangular floor plan and provided a central public space throughout the building beginning with the large public plaza on the ground floor, as well as both a figurative and literal network of green space throughout the tower.
Hannah Clark-Havron
Close-up axonometric of tower
Hannah Clark-Havron
Front elevation
Section perspective c/o Alexandra Lammert
Ground floor plan
Various level plans
Hannah Clark-Havron
Urban Village
Spring 2021
Professor: Michael Cadwell
Softwares: Rhino, Adobe Illustrator
This was a mixed-use housing development that would be located in downtown Toronto. It began with a heavy research process, focused on the needs and conditions of the site. We then worked through developing typical units, the larger overall development, and ways to bring the public up into the building.
My project centered around the juxtaposition of the commercial area that the site was located in and the nearby residential area, by bringing in the house archetype as a typical unit that begins to climb up through the interior courtyard. The pathways brought people through the commercial facade to a vibrant courtyard, lined with amenities and surrounded by an elevated neighborhood for a collision of public and private space that is still able to remain clearly distinct and respectful of each’s individual program.
Hannah Clark-Havron
Perspectival section from interior courtyard
URBAN VILLAGE
HANNAH CLARK-HAVRON
DIAGRAMS
Exploded axonometric diagram
Scheme diagrams
Site plan
RESIDENTIAL BAR
RESIDENTIAL BAR
FREESTANDING UNITS
FREESTANDING UNITS
PODIUM
PODIUM
Hannah Clark-Havron
COMMERCIAL-FACING VS. RESIDENTIAL-FACING
COMMERCIAL-FACING VS. RESIDENTIAL-FACING STEPPING DOWN TO RESIDENTIAL
STEPPING DOWN TO RESIDENTIAL
Hannah Clark-Havron
SECOND FLOOR PLAN
THIRD FLOOR PLAN
Hannah Clark-Havron
Exterior street view of development
Interior view of study space from corridor
View of freestanding units from interior courtyard
This collaborative project was focused around designing a masonry institute for Cincinnati, Ohio, that would be located on a site in Over-The-Rhine. The design needed to serve as an educational and exhibition space for the public, along with meeting the needs of daily administrative staff and offering a space for occasional events and lectures regarding masonry innovation.
My partner and I designed a building that translated the storefront typology of the surrounding historical architecture into a proportion system, which informed the plan and section. Three different materials – steel storefront, brick, and glass brick – were used to create lines throughout the building, which enforced the proportioning system and helped define the spaces and program. The split in the building was used to open the interior up to the urban fabric, allowing for increased public interaction and designating a space for a service core in the smaller portion of the building. With this being a masonry institute, a focus was placed on tectonics and exposed systems to allow for further educational opportunities in the public experience of the building.
This project was a group analysis and master plan of a large river-front site in Covington, Kentucky. The design needed to combine production, residential, and commercial spaces and have a building density FAR of two, along with taking into account water management and pedestrian and vehicular circulation.
For our project, we chose to integrate the history of Kentucky bourbon production into the fabric of our neighborhood. The circulation was defined by the grid shift that occurred on the existing site, and our main production spaces consisted of the distilling, storage, and distribution of bourbon, from cornfields to rick houses. The combination of mixed use residential and public service buildings created an independent, selfsufficient community that prioritized the pedestrian and walkability. The green space was split between corn fields for bourbon production and public space, and the pools created a water management system, along with serving the needs of the community and the bourbon distilling process.
This thesis project explored the use of biophilic design, a design practice that promotes wellness through the connection of people and the natural world, in terms of its application in the residential space and how this practice can become accessible and achievable for anyone in this space. Through familiarization with the major literature on biophilic design and an investigation into the ways in which biophilic practices have already been implemented in residential scale projects, this project investigated how biophilic design practices are related to the idea of well-being for the user and how they can be generalized and executed on the residential scale in order to provide the benefits of nature in an extensive way.
These general practices were compiled in a comprehensive catalog, or pattern book, that was then used to inform the design of a series of biophilic home prototypes concentrated on providing maximum wellness benefits to the residents. This design was documented through drawings and each of the different practices were further described in the pattern book as to how they can be implemented and what specific benefits they provide to the user. This thesis produced a resource for the application of biophilic design in the residential environment in the way of a pattern book of design applications that can provide inspiration and direction on how to move forward with the implementation of biophilic design in residential projects.
Potted Plants plants retroactive
Fishpond water proactive/retroactive
Open Floor Plan spaciousness proactive
practices
Spirals in Design naturalistic shapes & forms proactive/retroactive
Screened Porch inside-outside space proactive/retroactive
practices
Render of biophilic tiny home prototype with implemented practices
Hannah Clark-Havron
BIOPHILIC HOMES: Analyzing Biophilic Design in the Residential Setting
This practice refers to the incorporation of plants and vegetation in the home. It facilitates a direct connection of nature by the inclusion of naturally-growing elements in the built space. This is a relatively simple biophilic practice that is achievable in almost any home. Plants are easy to implement and are beneficial for their airpurifying effects and temperature control, but also provide benefits for their occupants such as increased comfort and health (Wolf 2020).
increased feelings of comfort and minimized stress increased productivity and performance positively impacted health and mood reduced stress and increased pain tolerance
For this practice to be most effective, it is important to take into account the needs of the plants you chose with consideration to your climate zone and the amount of sunlight you receive in your home. Not all plants will thrive in any condition, and some are especially sensitive, so in order to best achieve this practice, it is important to be aware of these needs. Other than this, it is possible to grow plants in every climate zone, so location should not have much effect on the implementation of this practice.
In the residential environment, plants can be achieved through the introduction of vegetation in the home. These can either be potted plants or plants in built-in planters or growing spaces. Gardens can be another way to achieve this practice and all of these applications can be both interior and exterior applications. For maximum benefit, native plants provide a greater connection to the occupant’s sense of place and are better acclimated to climate, making them most likely to thrive in this application.
DESCRIPTION
This practice refers to the introduction designed building elements. It facilitates a by the use of naturally-occurring vegetation space to relate to that of the outdoor environment. relies on native plants in its applications and both interior and exterior conditions. This practice the effects of stress and increasing performance occupants (Wolf 2020).
BENEFITS
increased feelings of comfort and increased productivity and positively impacted health provoked interest and satisfaction
This was a collaborative project that investigated the different construction techniques used in buildings. A corner of the building was to be chosen and “peeled apart” to breakdown the construction, materials, and joinery used in the design This was meant to be as detailed as possible and the end result was to be demonstrated in an exploded axonometric drawing and model scaled to 1’=1”.
The building that my partner and I researched was the Collumpio House in Barcelona, designed by MACH. This combined residence and studio consisted of a bright yellow steel framing structure that was infilled with glazing and a concrete block and stucco wall system. The floor and ceiling systems varied between concrete, wood finish, and corrugated metal, creating a unique experience on each floor and an assortment of different construction techniques. Each of these systems was broken down into its components and then displayed in the drawing and model deliverables.
Various images of cut-away model Exploded axonometric construction analysis
Overall third floor plan c/o DTJ Design
Render of entire building c/o DTJ Design
Hannah Clark-Havron
Frontgate Avon
Spring 2022
Phase: DD, CD
Firm: DTJ Design
Softwares: Revit, Adobe Acrobat
This luxury condo and townhome project was located in Avon, Colorado nearby a premier ski resort. The condos were 275,000 gsf and included 75 units over structured parking, with outdoor aquatics, firepit areas, and common interior spaces, like arcades, exercise rooms, and private ski lockers. The townhomes were 24,000 gsf and consisted of 9 units with attached garages. This project was done in association with TAB Associates.
My contribution to this project was assisting in the design documentation stage and the creation of construction documents. I worked extensively with updating the Revit model according to updated design decisions and communication from consultants. I was also specifically responsible for updating RCPs with lighting and mechanical layouts. Additionally, I worked with documentation, detailing and clean up of the drawings, including tagging, keynoting, sheet indexing, and scheduling. Lastly, I worked on developing construction details, including wall sections, storefronts, elevators, thresholds, and door heads, jambs, and sills.
This master plan project was a design charrette for the interns of the firm. The site was located in El Paso County, Colorado and included close to 200 acres of undeveloped ranch land. The program elements included residential neighborhoods, parks, open space, trails, a community amenity node, and a small commercial center.
My contribution to this project was the overall concept and design of the Outpost building, the commercial center of the site, along with any documentation of this building. I also created vision boards for the architecture of the community, including both townhomes and single family units, which embodied the agreed upon aesthetic and design style. The master plan layout was a combined effort between all parties, considering topography, natural features, and site history to develop this self-sufficient community, or “homestead”, in the Colorado ranch land.
Cochise Geronimo Renovation
Spring 2022
Phase: SD
Firm: DTJ Design
Softwares: Revit, Autodesk ReCap
This project was a digital reconstruction of an existing clubhouse building in Scottsdale, Arizona, in order to provide construction documents for a future renovation. The Revit model and documents were constructed based on a point cloud model of the clubhouse.
My contribution to this project was modeling the complex roof system of the clubhouse in Revit. This process consisted of using ReCap to read point cloud model data and translating that into the Revit workflow. The digital roof model was completed solely based off of the measurements and images provided from the scan and resulting point cloud model of the existing building.
