Arts & Architecture

10 pages

BioCellar Phase I Report

of 10
All materials on our website are shared by users. If you have any questions about copyright issues, please report us to resolve them. We are always happy to assist you.
bio PHASE I Prepared by Cleveland Urban Design Collaborative, Kent State University 1 In collaboration with Jean Loria, CW Waterworks Brad Masi, The New Agrarian Center Victoria Avi, Entrepreneurs for Sustainability (E4S) Like many older industrial cities, Cleveland, Ohio has experienced a dramatic decline in population and a corresponding rise in vacant properties. In order to address this fundamental imbalance between supply and demand, cities across the country, and particularly in the fo
  0 1 2 340.5Miles  MAP SHOWING FORECLOSURES IN THE CITY OF CLEVELAND   1   Prepared by  Cleveland Urban DesignCollaborative, Kent State University In collaboration with Jean Loria, CW Waterworks Brad Masi, The New Agrarian Center  Victoria Avi, Entrepreneurs forSustainability (E4S) Like many older industrial cities, Cleveland, Ohio has experienced a dramatic decline in population and a correspondingrise in vacant properties. In order to address this fundamental imbalance between supply and demand, cities across the country, and particularly in the former industrial strongholds of the midwest and northeast, have been demolishinghousing at unprecendented rates. In Cleveland alone, there are estimated to be more than 8,000 homes in vacantand deteriorated condition. This number is growing due to the on-going effects of the foreclosure crisis. The City demolishes 1,000 homes in a typical year.Large-scale demolition programs represent a tremendous loss of embodied energy. The BioCellar initiative proposes tosalvage the most valuable part of a derelict house–it’s masonry foundation. An existing foundation wall, surrounded by earth, is an insulated container that can store energy and serve a variety of productive functions such as green houses,solar collectors, aquaculture facilities, stormwater filtration, and other new uses. Vacant houses slated for deconstruction are ideal candidates for retrofit to BioCellars. The architectural shell of  the BioCellar is the partially deconstructed housing unit with an added solar envelop. The new environmentbecomes habitat for living systems designed to provide beneficial ecosystem services. These include growing food and specialty medicinal plants, water purification and soil detoxification, nutrient cyclingand pollination, plus cultural benefits such as recreation and aesthetics. The BioCellar is architectureplus biology to yield mini-economic units. Solar energy is the driving force.Specific uses for a BioCellar would be neighborhood-based and flexible. In neighborhoods where community gardens or urban farms exist, one or more BioCellars couldbe developed as greenhouses that would extend the growing season for localagriculture. In other neighborhoods, a BioCellar could function as a solar collector, providing energy to neighboring property owners through a co-operative agreement. Local entrepreneurs could use BioCellars for fish farming, growing hydroponic lettuce, or raising mushrooms.The range of uses could be adapted to market conditions andneighborhood priorities. bio PHASE I  The growth of Cleveland was driven by heavy industry and heavy infrastructure, but it could not have played out as it did without acorresponding industrialization and infrastructuralization of housing.Housing was industrialized by concentrating on a narrow range of standardized models and targeting them to a preponderant mass market.In the working and lower middle class tracts of Cleveland, this meant a repetitive pattern of free-standing single- and two-family frame housesintended for nuclear families. Privately developed in tracts along the city’s streetcar lines, this housing infrastructure forms the basic fabric of thecity and anticipates the suburban landscape created by the post-war housing industry.This housing infrastructure facilitated explosive growth, but the resulting monocultures—of family and housing types, and even of vegetation—made the city particularly vulnerable to change. After a half-century of growth came a half-century of continuous population decline andaccelerating vacancy. This created an environment that would be especially vulnerable to a crisis like the real estate meltdown of the last fewyears. Large areas of the city are now threatened with virtual extinction.In this context, diversity is essential to creating a system that can survive under continued tough conditions. This project proposes a new setof uses for the fundamental building block of the city’s housing infrastructure, diversifying its functions and using it to house new programs andeven new species that will catalyze sustainable change.The biocellar infrastructure plugs into the legacy infrastructure of property divisions and building footprints, but it provides a tool for findinglocalized solutions to problems that affect the health and welfare of the entire city. This result is an open network architecture in whichdiversity can be fostered, bringing new (mostly non-human) residents into the city and providing unexpected and potentially game-changingopportunities for the residents who remain in the challenging environment created by chronic vacancy and disinvestment. Compared to the centralized urban “utlilities” of the industrial era, this is a “both/and” infrastructure that solves multiple problems and is socially andenvironmentally sustainable.Finally, this is a visible infrastructure that brings systems vital to the health of the city right into its neighborhoods. While traditional infrastructuresare centrally governed and strive to be functionally invisible—you flush and never have to think about where it goes—this infrastructureengages curiosity and becomes part of an education in the fact of interdependency and the need for bio-diversity and social engagement. BIOCELLAR AS INFRASTRUCTURE        2     P   1   0    6   7 Era    Mid-Late 1800sEarly 1900sMid-1900sLate 1900s2000+ Growth Issue Public health and welfareIndustrializationEnergy AutomobilesFood Production (Dust Bowl)CommunicationEnergyPollutionMass CommunicationGarbageFloodingInformation ManagementSprawl, globalization Vacant housingUrban food desert sHousing monoculture Infrastructure Solutions Sanitation, hospitals, parks, schoolsPlanned communities, company townsCoal, oil, gas, electricityRoadsCrop rotation, agricultural practicesRadio, telephoneHydro and nuclear power  Air/water/sewage treatmentTelevisionRecyclingStorm water management, detentionComputers/internetSound land use, smart growth Adaptive reuse/land reutilizationLocal greenhouse network Diversity through infrastructure Items shown in redare added to theHistory of AmericanInfrastructure chart byKaren S. Williamson, Growing with GreenInfrastructure , HeritageConservancy, 2003. 2    VACANT HOMES IN VARIED CONTEXTS single vacancy within existingresidential contexthigher number of vacancynear urban institution vacancy near parks or greenspace network  vacancy surrounding existingneighborhood parks vacancy near abandonedinfrastructurecorner vacancy BioCellars address infrastructure needs at the neighborhood, municipal, andregional scales. A BioCellar is a core unit of energy—a warm box insulated bythe ground. Each unit is to be locally attuned and responsive to the changing needs of a changing city. Each BioCellar contains several inter-related systemsand a diversity of biological function. The combinations of uses are limitless.BioCellars form a decentralized and distributed infrastructure network across acity or region. A BioCellar can be a stand-alone feature or clustered in groupsto address a larger, more complex community need. A nodal BioCellar canbe created and maintained in response to an individual need–for example a greenhouse to grow food for one household. Or a BioCellar can be developed ina collaborative way, as when several neighbors come together to develop a solar cell that supplies shared energy to their houses. Looped systems bring materials or energy into a BioCellar, perform a process, and then distribute the outcome. SYSTEM STRUCTUREUSESPROXIMATE GEOGRAPHIES BioCellars complement existing infrastructure, rather than replace it, so the usesand structure of a BioCellar must be heterogeneous and site-specific. A BioCellar at the top of a bluff will function differently than one at the edge of a river.Demographics, existing land use patterns, economic opportunities, and beneficial proximity will determine the use of each BioCellar and the functions of the system. proximity to retail, residentialand main traffic arteries vacancy close to extremeelevation change and water  3    EcosystemInformation / EducationTransportationEnergy PRODUCTION Green houseChicken coop/hatcheryFish farmLivestock Barn Mushroom FarmCitrus production STORAGE Canning, drying, preservationRoot Cellar, natural cold storageComposting stationFish breeding for releasing in the river PermacultureSoil treatment  AMENITY  Social Service Center Cemetery Animal Shelter- APLCommunity Supported Agriculture(CSA) food storageCommunal lawn equipment storageReligious space / gathering spaceCommunity storage facilityLaundromatCommunity kitchen, bakery HOUSING  Artist studioScattered site homeless shelter  RECREATION  Micro-sauna and spaSwimming PoolBrewery / Gastro Pub / nightclubBusiness Incubator Research facility Medicinal plant gardenStudent agriculture student housing Bus shelter Bike Storage StationTrailhead for Rails-to-Trails  WASTE WATER  Living Machine (biological treatment plant)Series of connected water treatmenttanks Anaerobic Digestors STORMWATER  Stormwater detentionGroundwater rechargeSteelhead trout nursery and stormwater  filtration PURIFICATION De-salination plantSolar cell Algae electricity productionFuel cell station USESPROXIMATE GEOGRAPHIESSYSTEM STRUCTURE  VacancyDevelopment / Non-Development ZoneLake/River GreenwayInstitutionNodalCollaborativeDirected PathRepeating LoopTransportationInfrastructure BIOCELLAR MATRIX  FoodCommunity Water  4  
We Need Your Support
Thank you for visiting our website and your interest in our free products and services. We are nonprofit website to share and download documents. To the running of this website, we need your help to support us.

Thanks to everyone for your continued support.

No, Thanks

We need your sign to support Project to invent "SMART AND CONTROLLABLE REFLECTIVE BALLOONS" to cover the Sun and Save Our Earth.

More details...

Sign Now!

We are very appreciated for your Prompt Action!