Gestão de recursos hídricos: uma análise a partir dos princípios ambientais

Viegas, Eduardo Coral

14 September 2007

O presente trabalho versa sobre a gestão dos recursos hídricos sob a ótica dos princípios ambientais. O acesso à água é um direito humano fundamental. A implementação desse direito encontra-se dificultada em razão do contexto fático global de crise da água. As causas e conseqüências da escassez quali-quantitativa da água estão relacionadas diretamente ao homem, da mesma forma que seu necessário enfrentamento depende de mudanças de percepção e comportamento do próprio ser humano. Preconiza-se o rompimento do paradigma antropocentrista, que deve ser transmutado para uma visão ecocêntrica. A efetivação do direito fundamental de que se trata depende de inúmeras providências, destacando-se a publicização integral da propriedade da água pela Constituição de 1988. A finalidade dessa relevante alteração no regime de dominialidade hídrica foi dar ao Estado o meio para o adequado gerenciamento da água como forma de estabilizar ou reduzir a crise e promover justiça social. Compete ao Estado social a satisfação do bem-estar coletivo, o que é mais factível se tiver sob seu domínio o recurso atualmente escasso e de relevância pública. Os recursos hídricos ingressam no patrimônio estatal na categoria dos bens de uso comum do povo. Apesar disso, sua gestão se dá de forma descentralizada e participativa. Na tarefa de administrar as águas, o jurista utiliza-se dos princípios estruturantes do Direito Ambiental, notabilizando-se os princípios materiais do desenvolvimento sustentável, prevenção, precaução, poluidor-pagador e usuário-pagador. Todos eles estão previstos pela Constituição Federal. O desenvolvimento sustentável é um sobreprincípio, sendo mais do que um princípio. O critério de ponderação que é utilizado para solver o conflito entre princípios, no caso do ecodesenvolvimento aplica-se apenas entre seus elementos internos, não entre o desenvolvimento sustentável e outros princípios. Este princípio-reitor é muito útil na apreciação do modelo de produção de energia hidrelétrica, que causa degradações ambientais significativas, e sempre tem repercussão, também, nos planos econômico e social. Os princípios da prevenção e da precaução servem à proteção dos mananciais superficiais e subterrâneos. A precaução, porém, auxilia de forma mais apropriada na defesa das águas subterrâneas, uma vez que o estado da técnica não permite mensurar qual o impacto ambiental do consumo excessivo de água de poços, que consiste em uma realidade contemporânea crescente. Os princípios do poluidor-pagador e do usuário-pagador fundamentam teoricamente o instrumento da cobrança pela utilização dos recursos hídricos, que o legislador resolveu adotar como forma de incentivar a racionalização do uso da água. A pesquisa é do tipo bibliográfica. O método-base adotado é o analítico. Diversas formas de análise foram empregadas, registrando-se a estruturalista, a histórica e a descritiva. Como a adoção de um método-base não afasta a aplicação dos demais, pois cada trabalho científico acaba sendo construído de modo singular, utilizaram-se também, ao longo da dissertação, os métodos dialético, hermenêutico e sistêmico. / The present work concerns the natural water resource management under the evironmental principles. Access to water is a basic human right. The implementation of this right is made all the more difficult on account of the global water crisis. The causes and consequences of these quality and quantity shortages of fresh water are directly related to man, likewise, in adequately facing this problem, a change in perception and behavior must be undertaken by humankind. A move away from the pattern of anthropocentrism to a more ecocentric view is needed. Carrying out these basic laws depends on innumerable steps, clarified in the integral publication of water properties in the constitution of 1988. The objective of this relevant alteration in water property was to give the state the means for the adequate management of water as a form of stabilizing or reducing the crisis and promoting social justice. It is the responsibility of the state to see to collective well being, which is made easier when the resource, which is presently scarce, is held under it s domain of public relevance. Natural water resources are held under the category of common use resources within the patrimony of the state. Despite this, it is managed in a decentralized and collaborative fashion. In the task of managing these water resources, the jurist uses the structured principles of Environmental Law, observing the main principles of sustainable development, prevention, precaution, paying pollutant and paying user. All of which have been foreseen by the Federal constitution. Sustainable development is more than a principle. The basis of consideration used to solve the conflict between the principles, in the case of eco-development is only applied within its internal elements, not within sustainable development and other principles. This fundamental principle is very useful in the appreciation of the model of production of hydroelectric energy, which causes significant environmental degradation and always has repercussions within economic and social plans. Precaution, however, acts as a more appropriate method of protecting subterranean waters, whereby the technical state no longer permits the measuring of the environmental impact of excessive consumption of well water, which includes a growing contemporary reality. The principles of the paying pollutant and the paying user theoretically substantiate the instrument of collective use of natural water resources, which the legislator resolved to adopt in order to stimulate rationing in the use of water. The research is in a bibliographical format. The method-base is analytical. Various forms of analysis were used, including structuralistic, historic and descriptive types. As the adoption of a certain method-base does not dismiss the need of others, so each scientific project is formed in a singular fashion, including, within the dissertation, dialectic, hermeneutic and systemic methods.

Direito

Direito ambiental

Recursos hídricos

Escassez de água

Propriedade dos recursos hídricos

Princípios ambientais

Metodologia

Legislação ambiental

Sustentabilidade

Environmental law

Natural water resources

Water scarcity

Properties of water resources

Environmental principles

Methodology

Assessment of water security using conceptual, deterministic and stochastic frameworks / Avaliação da segurança hídrica a partir de base conceitual, determinística e estocástica

Dulce Buchala Bicca Rodrigues

21 November 2014

A comprehensive assessment of water security incorporates a range of water-related concepts, since water policy issues to specific technical aspects of hydrological conditions and their interactions with societal needs and ecosystem functioning. This doctoral thesis is organized into three chapters that address such range of water security-related topics, aiming to establish a conceptual baseline and propose deterministic and stochastic accounting frameworks for a river basin water security evaluation. Specific assumptions and research questions are defined in each chapter, and are related to the management of \'Cantareira water supply system\' (located in Southeastern Brazil), focusing on different scales and on its political and hydrological aspects as well. The first chapter acts as a conceptual baseline for water security assessment, by examining general aspects of the Brazilian water policy and water allocation system. This study contrasts Brazilian and American water management systems applied to water transfer projects, discussing experiences from the \'Cantareira system\' and Colorado river basin. A deterministic accounting framework is presented in the second chapter, which is based on management of blue and green water kinds (defined in accordance with hydrological processes and storage types), and demonstrates how a quantitative analysis of provisioning and use (abstraction and consumption) of both water kinds can be conducted. An agricultural basin (291 km²) within the Cantareira water supply system (located upstream of the Cachoeira reservoir) was used to illustrate this approach. The impact of blue and green water use on median water resources conditions is accounted by the scarcity indicator, while the vulnerability indicator considers the probability of low availability of water resources. In the third chapter quantifies and discusses the impacts of uncertainties on water security indicators (proposed in the chapter 2), based on a multi-model and resampling framework, that considers several uncertainty sources including those related to: i) observed streamflow data; ii) hydrological model structure; iii) residual analysis; iv) Environmental Flow Requirement methods; v) the definition of critical conditions for water provision; and vi) the critical demand imposed by human activities. Then, the uncertainty is propagated through different methodological arrangements applied to the same study basin of chapter 2. In brief, the first chapter indicates that both Brazilian and American water management system can potentially contribute to each other. In the second chapter, the Blue/Green water-based accounting framework reveal clear spatial and temporal patterns of water scarcity and vulnerability levels within the basin, thereby improving our understanding of how and where water-related threats to human and aquatic ecosystem security can arise (so called hot-spots). The third chapter provide a general method that can form basis for meaningful support to end-users facing water resource challenges by enabling them to incorporate a viable uncertainty analysis into a robust decision making process. Further investigation are proposed in each research step of this doctoral thesis. / A avaliação da segurança hídrica pode incorporar vários conceitos relacionados à água, desde aspectos da política de recursos hídricos até questões hidrológicas específicas e suas interações com a sociedade e ecossistemas. Esta tese de doutorado busca estabelecer uma base conceitual e propor esquemas metodológicos com base determinística e estocástica para avaliação da segurança hídrica de bacias hidrográficas. Objetivos específicos são definidos em cada capítulo e relacionam-se à gestão do \'Sistema Cantareira de abastecimento de água\' (localizado no Sudeste do Brasil), com foco em diferentes escalas, bem como aspectos políticos e hidrológicos. O primeiro capítulo é apresentado como baseline conceitual, examinando aspectos gerais da política de recursos hídricos e sistemas alocação de água. Este estudo compara sistemas de gestão aplicados a projetos de transposição de água inter/intra-bacias no Brasil e Estados Unidos, discutindo experiências do Sistema Cantareira e da bacia do rio Colorado. O segundo capítulo, por sua vez, propõe e analisa um esquema metodológico determinístico baseado na gestão das águas azul e verde (definidas de acordo com processos hidrológicos e unidades de armazenamento). Este estudo demonstra como uma análise quantitativa da provisão e utilização de ambos os tipos de água pode ser conduzida, propondo indicadores de escassez e vulnerabilidade hídrica. Esta abordagem foi aplicada em uma bacia agrícola (291 km²), localizada a montante do reservatório Cachoeira, que é integrante do Sistema Cantareira. O terceiro capítulo quantifica e analisa os impactos das incertezas sobre os indicadores de segurança hídrica propostos no capítulo 2, utilizando um esquema metodológico estocástico baseado em múltiplos modelos e reamostragem, que incorpora variadas fontes de incerteza, tais como: i) dados observados de vazão; ii) estrutura do modelo hidrológico; iii) análise de resíduos do modelo hidrológico; iv) estimativa de vazão ambiental; v) definição de condições críticas de provisão e vi) demanda hídrica. Em seguida, as incertezas são propagadas através de diferentes arranjos metodológicos aplicados na mesma bacia estudo do capítulo 2. Em conclusão, o primeiro capítulo sugere uma potencial troca de contribuições provenientes de ambos os sistemas de gestão brasileiro e americano. O segundo capítulo revela padrões espaciais e temporais dos resultados dos indicadores de escassez e vulnerabilidade, melhorando assim a compreensão de como e onde ameaças à segurança hídrica podem surgir. Por sua vez, a análise de incertezas desenvolvida no terceiro capítulo é capaz de gerar suporte a gestores de recursos hídricos e processo de tomada de decisões robustas. Recomendações específicas são geradas em cada capítulo da presente tese de doutorado.

Cantareira water supply system

Environmental flow requirement

Hydrological modeling

Uncertainty analysis

Water policy

Water scarcity

Water vulnerability

Análise de incertezas

Escassez hídrica

Modelagem hidrológica

Política de recursos hídricos

Vazões ambientais

Vulnerabilidade hídrica

Rice yields under water-saving irrigation management : A meta-analysis

Åberg, Amanda

January 2017

Water scarcity combined with an increasing world population is creating pressure to develop new methods for producing food using less water. Rice is a staple crop with a very high water demand. This study examined the success in maintaining yields under water-saving irrigation management, including alternate wetting and drying (AWD). A meta-analysis was conducted examining yields under various types of water-saving irrigation compared to control plots kept under continuous flooding. The results indicated that yields can indeed be maintained under AWD as long as the field water level during the dry cycles is not allowed to drop below -15 cm, or the soil water potential is not allowed to drop below -10 kPa. Yields can likewise be maintained using irrigation intervals of 2 days, but the variability increases. Midseason drainage was not found to affect yield, though non-flooded conditions when maintained throughout most of the crop season appeared to be detrimental to yields. Increasingly negative effects on yields were found when increasing the severity of AWD or the length of the drainage periods. Potential benefits and drawbacks of water-saving irrigation management with regards to greenhouse gas emissions, soil quality and nutrient losses were discussed to highlight the complexity of the challenges of saving water in rice production.

Rice

yield

water scarcity

water-­saving irrigation

WSI

alternate wetting and drying

AWD

soil organic matter

soil organic carbon.

Physical Geography

Naturgeografi

Agricultural Science

Jordbruksvetenskap

Trans-boundary river basins: a discourse on water scarcity, conflict, and water resource management.

Riley, Timothy

12 1900

This thesis is an inquiry regarding the interconnections between water scarcity, geopolitics, resource management, and the strategies for developing effective ways to resolve conflict and encourage sustainable water resource use in developing countries. The ecological services of trans-boundary rivers are explored in conjunction with the potential impacts to freshwater availability due to economic modernization, water resource development, and decision making regimes that determine how water is allocated among competing users. Anthropogenic stressors that induce water scarcity and the geopolitical mechanisms of conflict are studied. A discourse on the creation and functional extent of global and localized water ethics is investigated, emphasizing the importance of perceptual dispositions of water users in understanding the value of trans-boundary river basins.

Environmental ethics.

Geopolitics.

Trans-boundary rivers

water scarcity

geopolitics

water ethics

Three Essays on the Economic Causes of Conflict

Yousef, Sahar Farid

January 2020

No description available.

Agricultural Economics

Environmental Economics

interstate conflict

social unrest

water-scarcity

upstream-downstream dyads

river sharing game

staple food prices

food insecurity

trade liberalization

territorial conflict

free-trade agreements

peace agreements

subgame perfect equilibrium

EXTENDED METHODOLOGY FOR WATER RESOURCES AND WATER-RELATED ENERGY ASSESSMENT ADDRESSING WATER QUALITY / EXTENDED METHODOLOGY FOR WATER RESOURCES AND WATER-RELATED ENERGY ASSESSMENT ADDRESSING WATER QUALITY

JIA, Xuexiu

January 2020

Problémy s vodou, zejména její nedostatek a znečištění, ovlivňují každodenní lidský život a hospodářský vývoj. Globální změny klimatu zvyšují pravděpodobnost a četnost extrémních událostí jako jsou sucho a záplavy. Rostoucí problémy s nepravidelnou dostupností a znečištěním vody vyžadují pokročilejší metodiky hodnocení vodních zdrojů, které povedou k efektivnímu využití a hospodaření s vodou. Tato práce se zabývá rozšířenými metodikami pro hodnocení vody z pohledu její kvality a kvantity a pro hodnocení spotřeby energie a produkce emisí souvisejících s vodou. Tři hlavní metodiky jsou navrženy na základě konceptu vodní stopy (Water Footprint) a pinch analýzy vody (Water Pinch Analysis) pro posouzení kvantitativních a kvalitativních hledisek využití a spotřeby vody. Použití těchto metod je rovněž demonstrováno pomocí numerických a empirických případových studií zaměřených na hodnocení a optimalizaci využití regionálních a průmyslových vodních zdrojůDále jsou diskutovány souvislosti mezi vodou a energií (Water-Energy Nexus) za účelem analýzy problémů týkající se vody z širší perspektivy. Z pohledu vody a vodních zdrojů je provedeno počáteční zhodnocení energetické náročnosti a produkce emisí skleníkových plynů v problematice odsolování mořské vody. Výsledky prezentované v této práci navazují na současné metodiky hodnocení vodních zdrojů. Stopa dostupnosti vody (Water Availability Footprint) byla navržena pro zohlednění dopadu degradace kvality vody ve stávajících postupech pro posuzování nedostatku vody, ve kterých nebyla dříve řešena. Druhým přínosem této práce je návrh konceptu kvantitativní-kvalitativní vodní stopy (Quantitative-Qualitative Water Footprint - QQWFP), ve kterém je definována vodní stopa z pohledu nákladů a následně je stanovena v souvislosti s celkovými náklady na spotřebu vody a odstraňování kontaminantů, které se do vody dostávají v průběhu jejího využití. Vodní stopa založená na nákladech poskytuje výsledky, které jsou intuitivnější jak pro management vodních zdrojů tak i pro veřejnost. Tento přístup umožňuje lépe kontrolovat a řídit průmyslové a regionální využívání a správu vody. Třetím přínosem této práce je rozšíření pinch analýzy nedostatku vody (Water Scarcity Pinch Analysis - WSPA), ve které je aplikována pinch analýzy vody na makroúrovni se zaměřením na regionální hodnocení a optimalizaci zdrojů a využívání vody. Všechny tři navržené metody jsou zaměřeny na stanovení dopadů využití vody z hlediska jejího množství a kvality, analýzy QQWFP a WSPA také pokrývají dopady vícečetných kontaminantů. Kromě hledání řešení se tato práce také pokouší naznačit potenciální směry pro budoucí výzkum v dané oblasti. Mezi významná potenciální témata k diskuzi patří 1) pokročilejší metoda kvantifikace vlivu více kontaminantů a 2) implementace a analýza ekonomické proveditelnosti přístupů WSPA a QQWFP s lokalizovanými daty s cílem nalézt přizpůsobené řešení pro optimální využití regionální a průmyslové vody.

Developing community-informed technology for harvesting rainwater for domestic use in a semi-arid area of South Africa

Nyamukondiwa, Pertina

16 May 2020

PhDRDV / Institute for Rural Development / Approximately, 780 million of people in the world lack access to safe water for domestic use. Out of these, 37 % are found in sub-Saharan Africa. Because of the negative impact of climate variability and change, scarcity of water is likely to continue worsening. Although semi-arid areas experience water shortages, they receive limited amounts of rainfall. Rainwater might help alleviate temporal water shortages. However, rainwater is rarely harvested for use when most needed. The PhD in Rural Development thesis research was carried out in Mabayeni village, which falls under Ward 35 of Collins Chabane Local Municipality in Limpopo Province of South Africa. It was designed to develop a grassroots community-informed prototype for a technology that could be used to harvest rainwater for domestic use. A series of interrelated studies with the following specific objectives underpinned the research: (1) To determine the extent of water scarcity; (2) To identify strategies households used to cope with inadequate availability of water for domestic use; (3) To document the rainwater harvesting techniques rural households used; (4) To compare the features of rainwater harvesting technology that people of different age groups preferred; (5) To develop community-preferred prototypes of rainwater harvesting technology with the best potential to increase access to water for domestic use; and (6) To evaluate the community-preferred prototypes of rainwater harvesting technology. Partly, the study was conducted as a follow-up to a Master’s research study on climate change carried out in 2014 in Mabayeni village. In the 2014 study, it was revealed that water scarcity was a major result of climate change in the area. In addition, Mabayeni was perceived as the driest compared to other villages in the ward. The Cresswell (2013) explanatory sequential mixed method design guided the study. Multi-stage sampling was followed to select respondents. This entailed categorizing respondents first dividing them by age and gender. Respondents were placed in the following clusters: children (boys and girls), youth (male and female), adult (men and women), and the elderly. This was done in order to ensure that there was triangulation of data sources. Various participatory research techniques were used to collect qualitative data for the same reason. For objective 1, data collection techniques such as photo voice, key informant interviews, focus group discussions, participatory mapping, transect walks, storytelling and seasonal diagramming were used. Data were analysed through card sorting, Atlas.ti version 7.5.7-mediated thematic content analysis, map ranking, matrix scoring and conversation analysis. Data collection techniques employed for objective 2 were similar to those used in objective 1 with the exception of participatory mapping. Thematic content analysis in Atlas.ti, map ranking and matrix ranking were used to analyse data for this objective. Only focus group discussions, key informant interviews and transect walks were used to collect data for objective 3. Data analysis techniques used were similar to those used in the previous objective with the exception of map ranking. For objective 4, data were collected through focus group discussions and analysed using matrix ranking and Atlas.ti-aided thematic content analysis. In objective 5, development of artefacts was guided by prototyping and sketch modelling techniques. Techniques such as verbal protocol analysis, mathematical calculations and presentation and analysis were used to analyse data. A questionnaire with open and closed ended questions was also used to collect data for the last objective. Open-ended questions were analysed using thematic content analysis. In addition, the Kruskal Wallis test in SPSS version 25 determined first, the two prototypes (one for zinc and another for thatch roof) that were regarded as the best; and second, if prototype component ratings significantly differed (p <0.05) across prototypes. As a post hoc test, the Dunn’s test in R Statistical Software version 3.3.0 was used for pairwise comparisons. Data saturation determined the sample size. A total of 17 community engagement sessions were held to collect, analyse and validate findings with the grassroots community members in Mabayeni village. Water scarcity in Mabayeni village was reconfirmed to be seasonal. The dry season in each year was five months long. During this time, residents adopted random, risky and unhygienic coping strategies. Although rainwater was collected from rooftops, there was no formal technology used to gather and store large quantities for later use. This was attributed to lack of resources and knowledge on how to develop such technologies. The most commonly preferred features of rainwater harvesting technology across interest groups related to water quality, construction materials and security. All interest groups preferred a technology that harvested clean/potable water. Moreover, the elderly wanted a technology that would help them access the stored water easily. In total, 14 prototypes were developed. When all the interest groups evaluated the prototypes, the ones that boys and men developed were selected as the best for zinc and thatched roofbased technologies, respectively. Selection of a prototype that children produced as the best underlined that children were an important resource that communities should never marginalise. Nor should their ability to contribute useful ideas be underestimated when seeking solutions to local challenges. Active involvement of grassroots community members in the entire design process helped tailor specifications of the technology to user needs, thereby highlighting the importance of inclusive decision making in development practice. This was also important because it created ownership and increased chances of adopting the technology. Lastly, the current study reaffirmed the view that postgraduate degree research can be harnessed to coproduce solutions to community-identified challenges. / NRF

Colins Chabane Local Municipality

Community informed

Domestic use

Rainwater harvesting

Rural communities

Technology

Water Scarcity

551.5770968257

Water-supply -- South Africa -- Limpopo

Hydrogeological characterisation and water supply potential of Lebalelo South, Limpopo Province of South Africa

Rambuwani, Rudzani Vincent

08 1900

MESHWR / Department of Hydrology and Water Resources / Lebalelo area of Sekhukhune district is one of many areas in South Africa experiencing portable water scarcity, especially during prolonged dry season. Due to the dominance of low yielding aquifers in South Africa, it is essential to manage groundwater resources in these low yielding aquifers. However, the management of low yielding aquifer is difficult in areas like Labelelo where the hydrogeological characteristics of the aquifers are understudied. This study investigated the hydrogeological characteristics of the aquifers in the area using combined geophysical method and analytical groundwater models. Four newly drilled borehole and five existing boreholes were used for this study. Geophysical survey was carried out using magnetic and electromagnetic methods. The magnetic survey was used to locate the position of magnetic bodies such as dolerite dykes and different lithologies with different magnetic properties. The electromagnetic survey however, was used to determine zones of high permeability associated with the intrusive bodies as well as high permeability zones in fault planes. Step test, constant discharge test and recovery tests were conducted on all the boreholes to stress the borehole. This was used to determine a suitable and sustainable pumping rate of the aquifer. Pumping test data from the pumping period and recovery was evaluated and interpreted using AQTESOLVE. Aquifer transmissivity, storativity, internal and external hydraulic boundaries were determined from the data. The transmissivity in the area ranges from 0.08 to 124.7 m2/day. The aquifer types in the area are double porosity aquifer, radial flow aquifer with single porosity. Inductive Coupled Plasma (ICP-MS) was used to measure heavy metals, trace metals and cations while Ion Chromatography (IC) was used to determine anions in groundwater of the study area. The groundwater in the area is dominated by calcium carbonate as a result of long residence time with dolomite. The hydrochemistry of the water indicates that the chemistry of the groundwater in the area is mainly controlled by rock-water interaction. / NRF

Water supply

Water scarcity

Dry season

Aquifers

Groundwater

Hydrogeological

553.790968255

Aquifers -- South Africa -- Limpopo

Hydrogeology -- South Africa -- Limpopo

Groundwater -- South Africa -- Limpopo

Water-supply -- South Africa -- Limpopo

Biom / Biom

Bolcek, Roman

Unknown Date

Our planet has been facing enormous challenges over the last century, caused by population growth, an ever-evolving industry, resulting in ever-increasing CO2 production, rising water levels, misuse of agricultural land and the extinction of animal species. This causes the destruction of the Biome. Architectural and urban tendencies in the construction of cities, which do not change even today, use the maximum area, materials that cannot be recycled, also have a large share in this. Insufficient use of renewable resources, modern agriculture, self-sufficiency, both housing and urban structures. The reason for not using these technologies is largely a political and commercial problem. The aim of this work is to examine the problems we face today and find meaningful solutions. Change existing architectural and urban trends. To create a self-sufficient structure in places where Biomes were destroyed and to create new ones accordingly. These places often have poor living conditions, such as high temperatures, lack of drinking water and overcrowding. With the help of simple rules of working with the landscape and the use of modern technology, create a new biosphere environment, change the climatic conditions in a given place and create suitable conditions for the life of both plant and animal communities. The structure should be inhabited by a certain number of people who will live in modules that will be fully self-sufficient, following the ISS model. Provide plenty of drinking water, food and energy. The structure should be created from plastic waste by new construction technologies, such as 3D printing using nanotechnology and carbon fiber. This should make it fully recyclable and renewable. The goal is to work with one structure and subsequently create another structure.

Rainwater Collecting Roofs on Schools in Indonesia : Field Study for a self-sufficient school

Andersson, Sofia, Collin, Sophie, Eriksson, Amanda

January 2023

Denna rapport har delats in i två delar, där den första delen fokuserar på den praktiskatillämpningen av konstruktionen och den andra delen fokuserar på skolans design ochfunktion. Detta för att designen ska byggas på vetenskapliga grunder, där det är bevisat attprocessen är genomförbar och har ett syfte.Ett av världens största hälsoproblem idag är bristen på rent dricksvatten. Globalt saknar entredjedel av befolkningen tillgång till rent vatten. Ett av de 17 globala målen som FN arbetarmot i Agenda 2030 är mål nummer sex, att alla ska ha tillgång till rent vatten och sanitet.Denna studie belyser hur man kan arbeta för att uppnå detta mål.En stad där vattenkvaliteten är dålig är i Surabaya, Indonesien. Surabaya är en stad med nästantio miljoner invånare i stor-Surabaya, belägen i Östra Java. Trots att Indonesien har en avvärldens största tillgångar på färskvatten genom sjöar och floder i världen är Brantasfloden,som är huvudkällan till vattenförsörjningen för staden, långt ifrån drickbart. Förutom att tafärskvatten från sjöar och floder kan regnvatten vara en bra källa till säkert dricksvatten.Ett bra exempel är Bermuda som med flera hundra års erfarenhet samlar in och renar vattnetgenom deras vita kalkstensbelagda tak. Studien har fokuserat på möjligheterna attimplementera denna struktur i Surabaya, placerad på en skola, eftersom barnen är en prioritet.Denna konstruktion skulle kunna göra det möjligt att få rent dricksvatten rakt ur kran medhjälp av landets egna naturresurser. Nederbörd är inte det enda landet har att tillgå för att enskola ska kunna bli självförsörjande. Studierna för del ett visar att en skola kan blisjälvförsörjande på både el och vatten med hjälp av naturtillgångarna som finns. Det finnstillräckligt med soltimmar och nederbörd för att kunna täcka försörjningen av en skola. Genomatt studera miljön, tillgången på material, risker och möjligheter samt hanteringen avavloppsvatten och ytterligare filtreringsmetoder kan man dra slutsatsen att uppfinningen ävenkan användas i Surabaya.Del två visar att det går att utforma en skola med denna takkonstruktion i beaktande, förSurabayas kultur och förhållanden. / This report has been divided into two parts where the first one is focused on the practicalapplicability of the construction and the second part is focused on the design and function ofthe school. This is to ensure that the design is based on scientific principles, where it is proventhat the process is feasible and serves a purpose.One of the world's biggest health problems today is the lack of clean drinking water.Worldwide, a third of the population do not have access to clean water. It is on the UN agendato reach the goal of clean water and sanitation by the year 2030. This study highlightsstrategies and approaches to work towards achieving this goal.One city where the water quality is poor is Surabaya, Indonesia. Surabaya is a city with almostthree million people, located in East Java. Even though Indonesia has one of the biggest assetsof fresh water through lakes and rivers in the world, the Brantas river, which is the mainsource of water supply for the city, is far from drinkable. Aside from taking fresh water fromlakes and rivers, rainwater can be a great source for safe drinking water.A good example with hundred years of experience is Bermuda with their white limestoneroofs that collect and cleans the water. The focus of the report has been the possibilities toimplement this structure in Surabaya placed on a school, as the children are a priority.Studying the environment, access of materials, risks and possibilities as well as wastewaterhandling and additional filtration methods, it can be concluded that the invention can be usedin the proximity of Surabaya as well with some minor changes to the construction. Thecountry's precipitation is not the only resource available for a school to become self-sufficient.The results for part one indicate that a school can achieve self-sufficiency in both electricityand water by harnessing the existing natural resources. The country has an abundance ofsunlight hours and precipitation to sufficiently meet the needs of a school.Part two demonstrates that it is possible to design a school considering this roof structure,considering Surabaya's culture and conditions.

clean drinking water

water quality

water scarcity

Surabaya Indonesia

rainwater harvesting

selfsufficiency

sustainable construction

wastewater management

renewable energy

school design

rent dricksvatten

vattenkvalitet

vattenbrist

Surabaya Indonesien

regnvatteninsamling

självförsörjning

hållbar konstruktion

avloppshantering

förnybar energi

skolplanering

Engineering and Technology

Teknik och teknologier