Tecnologias apropriadas: tijolos e paredes monolíticas de solo-cimento. / Appropriate technologies: soil-cement bricks and monolithic walls.

Abiko, Alex Kenya

07 January 1981

A maior preocupação deste trabalho é com as moradias das populações de baixa renda que na maioria dos casos são precárias não atendendo aos requisitos mínimos de habitabilidade. Para encarar este problema utilizamos como instrumento o conceito de tecnologia apropriada tendo em vista que as tecnologias tradicionais e modernas não tem apresentado bons resultados neste campo. Isto não quer dizer que estamos defendendo apenas uma saída tecnológica para os problemas da habitação popular. Para exemplificar a viabilidade deste enfoque, estudamos duas aplicações, em tijolos e em paredes monolíticas de solo-cimento, onde se colocaram as questões de escolha do solo, dosagem e ensaios de avaliação tais como: resistência à compressão, durabilidade, absorção d\'água, impermeabilidade. Procuramos também, através das aplicações, disseminar a metodologia empregada, que acreditamos possa ser utilizada no desenvolvimento de outros materiais. / The principal objective of this Project is housing for low income people, wich is in the most part poorly constructed without the minimum standards of habitability. To face this problem, the appropriate technology approach were applied bering in mind that traditional and modern ones have not been suited to best resolve this type of housing. But this does not mean that this housing problem is only a technological challenge. As an example two cases were studied, one in pressed earth and the other in rammed earth, both using soil-cement. Soil selection, the cement to soil mixture, compressive strength, durability, water absorption and impermeability tests were evaluated. Besides these examples it is considered that this methodology can be applied to other studies of other materials.

Appropriate technologies

Paredes monolíticas de solo-cimento

Soil-cement

Soil-cement bricks

Soil-cement monolithic walls

Solo-cimento

Tecnologias apropriadas

Tijolos

Desenvolvimento rural, soberania alimentar e energias renováveis em comunidades rurais carentes

Arias, Julian Andres Ariza

January 2016

Orientador: Prof. Dr. Federico Bernardino Morante Trigoso / Dissertação (mestrado) - Universidade Federal do ABC. Programa de Pós-Graduação em Energia, 2016. / Este trabalho discute o rol das energias renováveis na mediação de processos de desenvolvimento em comunidades rurais carentes, no marco da proposta da soberania alimentar. Esta proposta se apresenta na perspectiva da construção de modelos alimentares socialmente justos e ambientalmente sustentáveis, em resposta ao modelo excludente e energeticamente ineficiente da agricultura industrial. A energia e a tecnologia são considerados dentro do princípio de acesso, controle e gestão dos recursos necessários para a construção da soberania alimentar local. Estes recursos se articulam com uma visão do desenvolvimento associada à satisfação das necessidades básicas e ao fortalecimento da autonomia nas comunidades. Desta forma são mostradas algumas caraterísticas que as tecnologias devem ter para dialogar com os princípios da soberania alimentar, contribuindo com a ampliação das liberdades das pessoas no propósito de alcançar o empoderamento comunitário. Para articular a discussão conceitual foi realizado um estudo de caso em comunidades rurais de Cusco ¿ Peru. As evidências encontradas mostram que as energias renováveis e as tecnologias apropriadas, são uma condição "necessária mas não suficiente" para o desenvolvimento rural comunitário. / This work discusses the rol of the renewable energy in mediation of development process in poor rural communities, having as a frame the proposal of food sovereignty. This proposal is presented in the perspective of building fair socially and environmentally sustainable food models, in response to the exclusionary and energetically inneficient model of industrial agriculture. Energy and technology are considered within the principles of acces, control and management of the resources needed to build the local food soverignty. These resources are articulated with a vision of development associated with the satisfaction of basic human needs and the strengthening of autonomy in the communities. Thus it shows some features that technology should have to dialogue with the principles of food sovereignty, contributing to the expansion of people's freedoms in order to achieve community empowerment. To articulate the conceptual discussion a case study was conducted in rural communities of Cusco - Peru. The evidence found shows that renewable energy and appropriate technologies are a "necessary but not sufficient" condition for rural community development.

ENERGIAS RENOVÁVEIS

TECNOLOGIAS APROPRIADAS

SOBERANIA ALIMENTAR

RENEWABLE ENERGY SOURCES

APPROPRIATE TECHNOLOGIES

FOOD SOVEREIGNTY

Tecnologias apropriadas: tijolos e paredes monolíticas de solo-cimento. / Appropriate technologies: soil-cement bricks and monolithic walls.

Alex Kenya Abiko

07 January 1981

A maior preocupação deste trabalho é com as moradias das populações de baixa renda que na maioria dos casos são precárias não atendendo aos requisitos mínimos de habitabilidade. Para encarar este problema utilizamos como instrumento o conceito de tecnologia apropriada tendo em vista que as tecnologias tradicionais e modernas não tem apresentado bons resultados neste campo. Isto não quer dizer que estamos defendendo apenas uma saída tecnológica para os problemas da habitação popular. Para exemplificar a viabilidade deste enfoque, estudamos duas aplicações, em tijolos e em paredes monolíticas de solo-cimento, onde se colocaram as questões de escolha do solo, dosagem e ensaios de avaliação tais como: resistência à compressão, durabilidade, absorção d\'água, impermeabilidade. Procuramos também, através das aplicações, disseminar a metodologia empregada, que acreditamos possa ser utilizada no desenvolvimento de outros materiais. / The principal objective of this Project is housing for low income people, wich is in the most part poorly constructed without the minimum standards of habitability. To face this problem, the appropriate technology approach were applied bering in mind that traditional and modern ones have not been suited to best resolve this type of housing. But this does not mean that this housing problem is only a technological challenge. As an example two cases were studied, one in pressed earth and the other in rammed earth, both using soil-cement. Soil selection, the cement to soil mixture, compressive strength, durability, water absorption and impermeability tests were evaluated. Besides these examples it is considered that this methodology can be applied to other studies of other materials.

Paredes monolíticas de solo-cimento

Solo-cimento

Tecnologias apropriadas

Tijolos

Appropriate technologies

Soil-cement

Soil-cement bricks

Soil-cement monolithic walls

IWESS, an integrated water, energy and sanitation solution : A holistic approach to reach sustainability trough organic waste management for the Lake Victoria Basin, Kenya

Martinsson, Erik, Martinsson, Emil, Säf, Sören

January 2008

The process of allocating necessary resources like clean water, fuel/energy and food have resulted in an unsustainable use of natural resources causing problems with Soil erosion, soil fertility, desertification, deforestation, eutrophication and global warming. The purpose of this study was to gain information on the functional design of a waste management system enabling the organic components of domestic waste to be processed as useful resources while at the same time allow them to be re-circulated. The main part of this study was carried out at the Kendu SDA Hospital in the Rachyonyo district in western Kenya. For the case of this study two main objectives where chosen. The first was to develop a principal technological solution using three classed “appropriate technologies” found suitable for the purpose namely biogas, ecological water treatment systems and slow sand filtration. The second was to further analyse each included technology to further develop their potential to fit the concept. Results from the pilot facilities where then to be retrieved from the actual component selection and construction process itself, with performance analysis left for future studies. The main purpose of the biogas system study has been to evaluate the original ideas of overall concept, details, materials and construction methods. The 1 m3 biogas system has improved significantly during the development process and is today not far from an implementation, i.e. construction on a slightly larger scale. The biogas system developed during the project has proven to have potential for digestion of both latrine and kitchen waste. Using the two as fuel for the process does not only remove a problem – it grants several benefits. The ecological waste water treatment system main objective was to design and construct a pilot SSF-wetland. Results show that the construction process for smaller scaled SSF systems is simple and does not require trained personnel or specialized equipment and that significant cost reduction can be made by using locally available materials. The slow sand filtration sub system concept is called PT SCX and though still in the stage of development proved to have great potential concerning both efficiency and sustainability. The PT SCX comprises the advantages of slow sand filtration with further development of individual system solutions. It was adapted to enable both integration to the IWESS solution and stand alone installations purifying even highly turbid surface water sources to drinking water quality. The result from the study confirms the suitability of the three included technologies, ecological waste water treatment, biogas and slow sand filtration to work in an integrated system called IWESS- Integrated Water Energy and Sanitation Solution. The combined subsystems can together with source separated sewage offer full resource recovery enabling recirculation of both nutrients and water. In addition the system can be designed as a net producer of renewable and emission free energy.

ecological waste water treatment

slow sand filtration

deforestation

eutrophication

global warming

appropriate technologies

anaerobic process

biogas

source separation

nutrient re-circulation

waste water reuse

waste to resource

soil erosion

soil fertility

desertification

Environmental engineering

Miljöteknik

IWESS, an integrated water, energy and sanitation solution : A holistic approach to reach sustainability trough organic waste management for the Lake Victoria Basin, Kenya

Martinsson, Erik, Martinsson, Emil, Säf, Sören

January 2008

<p>The process of allocating necessary resources like clean water, fuel/energy and food have resulted in an unsustainable use of natural resources causing problems with Soil erosion, soil fertility, desertification, deforestation, eutrophication and global warming. The purpose of this study was to gain information on the functional design of a waste management system enabling the organic components of domestic waste to be processed as useful resources while at the same time allow them to be re-circulated. The main part of this study was carried out at the Kendu SDA Hospital in the Rachyonyo district in western Kenya. For the case of this study two main objectives where chosen. The first was to develop a principal technological solution using three classed “appropriate technologies” found suitable for the purpose namely biogas, ecological water treatment systems and slow sand filtration. The second was to further analyse each included technology to further develop their potential to fit the concept. Results from the pilot facilities where then to be retrieved from the actual component selection and construction process itself, with performance analysis left for future studies.</p><p>The main purpose of the biogas system study has been to evaluate the original ideas of overall concept, details, materials and construction methods. The 1 m3 biogas system has improved significantly during the development process and is today not far from an implementation, i.e. construction on a slightly larger scale. The biogas system developed during the project has proven to have potential for digestion of both latrine and kitchen waste. Using the two as fuel for the process does not only remove a problem – it grants several benefits.</p><p>The ecological waste water treatment system main objective was to design and construct a pilot SSF-wetland. Results show that the construction process for smaller scaled SSF systems is simple and does not require trained personnel or specialized equipment and that significant cost reduction can be made by using locally available materials.</p><p>The slow sand filtration sub system concept is called PT SCX and though still in the stage of development proved to have great potential concerning both efficiency and sustainability. The PT SCX comprises the advantages of slow sand filtration with further development of individual system solutions. It was adapted to enable both integration to the IWESS solution and stand alone installations purifying even highly turbid surface water sources to drinking water quality.</p><p>The result from the study confirms the suitability of the three included technologies, ecological waste water treatment, biogas and slow sand filtration to work in an integrated system called IWESS- Integrated Water Energy and Sanitation Solution. The combined subsystems can together with source separated sewage offer full resource recovery enabling recirculation of both nutrients and water. In addition the system can be designed as a net producer of renewable and emission free energy.</p>

ecological waste water treatment

slow sand filtration

deforestation

eutrophication

global warming

appropriate technologies

anaerobic process

biogas

source separation

nutrient re-circulation

waste water reuse

waste to resource

soil erosion

soil fertility

desertification

Environmental engineering

Miljöteknik