Youth Center In Niafourang

The Youth Center In Niafourang, designed by Project Niafourang (three architecture students at the Norwegian School of Science and Technology), was built in Niafourang, a small coastal village in the Casamance region of Senegal. The population of Niafourang is around 300 inhabitants and the village is very poor with a high unemployment rate.

The Youth Center in Niafourang contains a computer room/library and a larger multi-purpose room and hosts programs that create opportunities, jobs and development in the village. An important aspect of the project was to involve the local community in both the building and planning stages, in order to create a sense of ownership and pride in the resulting building.

The walls are built using blocks of compressed sand and a small amount of cement. The blocks were hand-pressed using a local machine with sand shoveled from a nearby ditch. Windows are positioned low on the walls with deep frames, so they can be used to sit in. Steel brackets were custom welded in a nearby village and hold the roof construction. The corrugated aluminum roof juts out beyond the walls to prevent rain from entering the building and creates shady areas to relax.

Underneath the protruding roof, a concrete belt surrounds the building creating a shady platform. The roof extends to include a second floor outside the walls of the multi-purpose room. The second floor is accessible by an outdoor ladder and functions as an extension of the library/computer room or the multi-purpose room. Angled wood planks serve as blinds, preventing both rain and direct sunlight.

[ More at ArchDaily]

Salma Samar Damluji Wins Global Award for Sustainable Architecture

Salma Samar Damluji, an Iraqi architect and researcher educated in the UK, pupil of Hassan Fathy and author of The Architecture of Yemen, who has dedicated her life to the safeguarding and redesign of Earthen Architecture in the fascinating but highly dangerous Yemen is the recipient of the Global Ward for Sustainable Architecture. The Global Award Ceremony will be held at the Cité de l´Architecture in Paris on April 13.

Hilltop House—The Rammed Earth White House

The Hilltop House, a large rammed earth structure built at the address of 1300 Rhode Island Avenue, NE, in Washington, DC in 1773. Before its demolition in 1956, which made way for subsidized housing, it was the oldest extant house in the Washington DC area. The house served as the interim White House for President James Monroe after the British burned the official residence.

An attempt was apparently made to bring raze the building with a wrecking ball after World War I failed after the ball proved ineffective, prompting the owners let the house stand. It was then renovated and it served as an embassy for some time.

The photo is from A quantitative comparison of rammed earth and sun-cured adobe buildings by Richard Hudson Clough and published by The University of New Mexico Press as a Masters Thesis in 1950. Clough went on to become the Dean of Engineering at UNM and wrote the definitive texts on construction contracting.

[ Research Credit: Quentin Wilson ]

Building Local


Building Local is a design-build studio that will explore and discuss the aesthetic, assembly and tectonic qualities of local materials: earth, stone, fique, bamboo and wood, engaging students in a series of workshops that will culminate in the design and construction of an efficient and innovative farmhouse. The studio will take place in Barichara, a colonial town located in the North Western region of Colombia. It is open to graduate and upper-level undergraduate students (juniors and seniors) who are interested in engaging in the explorations of these techniques and their use in contemporary architecture.

The studio is organized by:

Maria Carrizosa, a licensed architect in Colombia and holds an undegraduate degree in architecture from Universidad de Los Andes and a dual Master’s degree in Architecture, and City and Regional Planning from UC Berkeley. Her design practice in Colombia ranges from institutional to housing projects, developing two award-winning projects for a public library and a music school in rural communities. She has been involved in architectural education in both Colombia and the US and continues her participation as a guest juror in the College of Environmental Design and as an Adjunct Professor at the Diablo Valley Community College. Maria is interested in collaborative practices in both architecture and planning to provide communities with the necessary tools to improve and shape the spaces they live in.

Ana Maria Gutierrez, the co-founder of Organizmo, an organization that promotes the principles of permaculture, bio-architecture and the implementation of intuitive technologies. She holds a BFA in Architectural Design from the Parsons School of Design and Master in Interactive Telecomunication ITP from New York University.

Adriana Navarro, who holds a dual Master’s degree in Architecture, and City and Regional Planning from the University of California at Berkeley. Born and raised in Colombia (S.A), she received a BS Arch (Honors) from the University of Virginia in 2004. After working for Rafael Viñoly Architects, and OPX Global in Washington DC, Adriana moved to California to begin her graduate studies in 2007. As a 2010 John K. Branner Fellow, Adriana traveled the world, focusing her research, FAVELA CHIC, on socio-cultural aspects of design, particularly analyzing the role and relationship between architecture, planning and urban informality. Adriana is founder of the blog FAVELissues.

For more information visit http://buildinglocal.wordpress.com

The Terra [In]cognita Project

The Terra [In]cognita (Earthen architecture in Europe) project was created to raise public awareness of the heritage and contemporary application of earthen architecture through the Outstanding Earth Architecture in Europe Award in the following categories:

  • Buildings with archaeological, historical or architectural interest
  • Buildings s subjects of a remarkable and relevant intervention (restoration, rehabilitation or extension)
  • Buildings constructed after 1970
  • View the Terra [In]cognita Project here.

Earth Building: History, Science and Conservation

Earth Building: History, Science and Conservation by Paul Jaquin, covers various types of earth construction including adobe, cob and rammed earth. It presents a wide-ranging review of the history of earth building, tracing the development of earthen construction techniques from antiquity to the present day, and showing the development of the techniques with both time and geography. The behaviour of earth building materials is explained using, for the first time, principles from soil mechanics. There is a detailed discussion of strategies for the analysis and conservation of earth buildings to enable engineers, conservation professionals and architects to understand and preserve earth buildings better in the future. Richly illustrated with photographs and diagrams, this book provides an invaluable tool for the conservation of earth buildings.

Paul Jaquin is the author of the website, Historic Rammed Earth, which grew out of his PhD research at the University of Durham.

Sustainable Earth Architecture Workshop

Sustainable Earth Architecture Workshop, Feb. 18 to 27, 2011

WHAT
There will be an international workshop on Sustainable Earth Architecture in Subachoque, Colombia from the 18th to the 27th of February 2011 which will include construction of Mexican style vaults/domes (up to 18 feet), production of compressed earth blocks (using the CINVA RAM, which originated in Colombia), and the use of prefabricated bahareque which is being used in Colombia to construct housing. The workshop will feature a prototype of a house constructed using bahareque.

WHO
The workshop is being sponsored by Technotierra and will be led by architects/builders Ramon Aguirre and Lucia Garzon.

WHEN
The workshop will occur during two consecutive weekends: Feb. 18, 19, 20 and 25, 26, 27th from 9 in the morning till 6 p.m. For those traveling from outside Colombia a teaching tour will happen Feb. 21, 22, and 23rd. In total the hands-on portion of the workshop encompasses 6 days (48 hours of instruction).

COSTS
US$320.00 ($580.000 Colombian pesos)
The cost includes: workshop instructional content, accident insurance, construction materials, teaching team, tools, a certificate of completion, and transportation from Bogota to the worksite in Subachoque (38 kilometros from Bogota)

MORE INFORMATION
tallerarquitecturatierra@gmail.com
cell phone: 57 3102450630

I know Lucia Garzon. She is dedicated to promoting adobe construction that meets legal requirements (in Colombia those are the Normas ICONTEC) while emphasizing the use of natural local materials that are healthy and ecological, and utilize local labor. Lucia’s enthusiasm is contagious (and she speaks a mile a minute in Spanish!). I don’t know the other instructor Bovedero Maxiano Arq. Ramon Aguirre. It appears the primary focus is on use of CEB and bahareque in construction of walls and domes/vaults.

TECNOTIERRA , entidad colombiana desea difundir este evento para el mes de febrero….se esta promoviendo un taller practico integral de arquitectura sostenible con tierra, el taller esta dirigido a todo tipo de publico interesado en aportar al habitar el planeta y construir su hábitat de una forma ecológica y respetuosa con la naturaleza, aminorando el gasto energético de los materiales…en esta experiencia realizaremos la transferencia tecnológica con tres sistemas constructivos.
El taller se programo dos fines de semana, 6 días y 48 horas de vivencia practica….durante el taller realizaremos practicas de las siguientes tecnicas:

1- BOVEDAS MEXICANAS, en el taller construiremos una boveda a escala real de 6 metros.
2 -PRODUCCION DE BTC, insumo indispensable para realizar las bóvedas, como también para los muros, la norma ICONTEC 5324 ya esta aprobada desde el 2005 y esta aceptado como material técnico constructivo, paralelo a ello realizaremos un aprestamiento sobre la selección de suelos para conocer el material y saber como estabilizarlo.
3- BAHAREQUE PREFABRICADO,durante los últimos meses hemos realizado un prototipo de una vivienda social con este sistema constructivo, en este ademas de las paredes realizadas, se construyo una cubierta semi-plana, con materiales naturales y todo el proyecto esta realizado con coordinación modular , racionalizando al máximo los recursos naturales y sistematicamente tenemos al detalle el costo de esta obra en Colombia, toda realizada con materiales locales naturales, sanos, ecológicos y con mano de obra local.

Como el taller es eminentemente PRACTICO, los participantes al salir de este taller al concluirlo estarán en condiciones de realizar una bóveda y saber como se planea y construye, desde su inicio hasta el final, incluyendo manejo de canales e impermeabilización, considerando la seguridad para la sismoresistencia. Así mismo podrán conocer las fortalezas y debilidades de un sistema constructivo como el bahareque prefabricado, se aprenderá como debe ser revestido y cuales son las mezclas de pañetes con cal, todos los participantes conocerán los suelos y se acercaran a la producción de los BTC o Bloques de tierra comprimida o ecológicos con la maquina CINVA RAM.

La duración del taller será durante dos fines de semana consecutivos , esto con el fin de conocer los procedimientos completos y permitir secar los morteros, inicia el viernes 18 sábado 19 y domingo 20 desde las 9 de la mañana hasta las 6 de la tarde, este fin de semana, con una hora para el almuerzo, En esta experiencia conoceremos las bases de cada técnica, y el siguiente fin de semana viernes 25, sábado 26 y domingo 27 de FEBRERO, estaremos dejando concluida la bóveda de la casa, es una obra real y podremos apreciarla integralmente, por ello se planeo en dos fines de semana para visualizar la continuidad del sistema.
El valor del taller en pesos colombianos es de $580.000 el equivalente a 320 dólares.
Este valor incluye, la transferencia del conocimiento, seguro de accidentes, materiales de construcción, equipo de trabajo, herramientas, certificado y transporte local, desde Bogota hasta la obra en SUBACHOQUE (38 Kms de Bogotá/ Dpto. Cundinamarca/ COLOMBIA).

Esta dirigido por el Bovedero Maxiano Arq. Ramon Aguirre, y estará presente un maestro especialista en Bóvedas. lacoordinación será realizada por la Arq. Lucia E. Garzón, en la alianza profesional de dos expertos de la red PROTERRA, entidad que respalda este taller.
Para los de fuera de Bogotá y/o extranjeros interesados en aprovechar la semana se ofrece realizar una salida tematica para conocer obras de tierra patrimoniales y contemporaáneas, por ello ofrecemos adicionalmente un TOUR DIDACTICO durante la semana (21, 22 y 23 de febrero).. solo esperamos que nos cuente si le interesa, es optativo y tiene un costo adicional (en el visitaremos obras de construcción con tierra en Bogota, Tunja, VIlla de Leyva y Raquira).

Para mayor información pueden escribirnos y desde allí se les entregara mayor ilustración con la preinscripción en el correo electrónico: tallerarquitecturatierra@gmail.com,esperamos nos demuestre su intéres y les haremos llegar todo el contenido del proyecto, el cupo es limitado…

Como sabemos que cada uno de ustedes tiene su red de conocidos, que les puede interesar el tema les pedimos el favor de colectivizar esta infprmación y esperamos que cada vez seamos mas profesionales y personas interesadas y con herramientas para hacer una arquitectura mas respetuosa con el medio ambiente…..

Atte
Comite organizador y Arq. LUCIA E. GARZON
Coordinadora
Celular 57 3102450630

Sra Pou Vocational School

The Sra Pou Vocational School, located in Cambodia and designed by the Finnish architecture firm, Rudanko + Kankkunen, utilizes sun dried mud bricks made from the local red earth. Bricks were laid with a hole pattern in the walls to pull in more daylight as well as encourage natural ventilation through the space. Bright and colorful handmade shutters can be opened or closed to block out the sun, but also make the center cheery and welcoming. A large covered porch creates an outdoor community room, while the interior holds workshops, storage space and bathrooms.

The purpose of the vocational training centre is to encourage and teach poor families to earn their own living. The Sra Pou community is one of the unprivileged communities in Cambodia, who have been evicted from their homes in the city to the surrounding countryside. They lack basic infrastructure, decent built environment and secure income. The new vocational school provides professional training and helps the people to start sustainable businesses together. It is also a place for public gathering and democratic decision-making for the whole community.

Color is used on doors and shutters to give the building a strong presence by creating a rhythm across its facade. In the Vocational School these woven pieces also paint the light in various colors as it enters the workshop and classroom.

Read more at [ archidose | inhabit | archdaily | dezeen ]

Habitat Cabo Delgado

Habitat Cabo Delgado, constructed in Mozambique by Ziegert | Roswag | Seiler Architekten Ingenieure and the Aga Khan Foundation, was founded for the purpose of create more permanent housing solutions using local, natural building materials. Local construction methods were developed and improved upon in ways tailored to local craftsmens’ abilities; thus supporting the local construction culture and reinforcing village identity.

In the first phase of the project, eleven multipurpose learning centres were built to showcase the new construction methods. To facilitate the implementation and dissemination of these techniques, a total of forty local apprentices were trained in ecological building methods – skills they could later use to support themselves financially. As models of low-cost, high-quality, sustainable construction, the learning centres were designed to inspire others to imitate the new style.

The traditional “wattle and daub” technique has been replaced with an earth-block construction method. The new buildings’ rammed-earth and earth-block foundations are stabilised with 10% cement and covered with a moisture barrier to protect them from rain and rising damp. The earth blocks used to construct the walls are stabilised through the addition of straw.

An easy-to-produce triple-layered bamboo beam has been developed for use in roof constructions; the beam is used for nearly all parts of the roof such as ring beams, purlins and triangle trusses. The prefabricated trusses have a span of 6m, enabling the construction of open-plan multipurpose buildings. The bamboo is treated with borax, a natural salt, in order to prevent damage by termites or other insects. Several different traditional palm-leaf roofing techniques are used to construct the roofs. Because locally-available resources like earth, bamboo and leaves are used as building materials, each school displays the colours of its region.