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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

A decision support system for rural water supply in Mozambique

Beete, Nelson Hanry de Pena 15 July 2016 (has links)
A project report submitted to the Faculty of Engineering, University of the Witwatersrand, Johannesburg, in partial fulfilment of the requirements for the degree of Master of Science in Engineering Johannesburg, 1996 / Current practice of'the rural water sector in Mozambique does not generally consider all factors that have influenc.eon project sustainability, The urgent need to provide returnees in rural areas with safe water, does not give adequate time to engineers, technicians and those involved in the sector, to conceive and plan a water project property. A Decision Support System (DSS) for rural water supply has been proposed to assist the decision making process to be more systematic, fast and comprehensive. It requires a number of input cata variables which are not difficult to obtain and these variables have been selected to ensure that most aspects inherent in a successful project are considered. The main achievement of this system is the project report, similar to a project preliminary design, and the financial results which are important for project assessment and ranking. The Decision Support System is a computational model which uses engineering and economics approach to combine and process input data and information contained in its database. While the calculation method does not need constant updating, the database has to be verified frequently to produce reliable results. South African prices have been used in the database construction but a correction factor facility was incorporated to adjust and make the model useable in Mozambique. The model has been designed to be used by planners, engineers and technicians, and funding agencies. The model can be used by planners to assess implication of policy decisions on future water supplies and water resources development. For engineers and technicians, the model estimates water demands, project components sizes and quantities, and water source development and reliability. To funding agencies, the model is a tool to determine the best investment scenario of a rural water supply project.
2

The role of non-farm sources of income in rural poverty alleviation in the Boane disrict of Mozambique

Bila, Aniceto Timóteo 23 May 2005 (has links)
Please read the abstract in the section 00front of this document / Dissertation (M Inst Agrar (Agricultural Economics))--University of Pretoria, 2006. / Agricultural Economics, Extension and Rural Development / unrestricted
3

Revisiting community based natural resource management : a case study of the Tchuma Tchato project in Tete Province, Mozambique.

Maughan Brown, Anthony Michael. January 1998 (has links)
Community Based Natural Resource Management (CBNRM) is a paradigm that has emerged in response to the perceived failure of past approaches to conservation and development. CBNRM is intended to deliver socio-economic development to impoverished rural communities, who manage natural resources, and harness the utility of these resources as a vehicle for development. This dissertation revisits the concept of CBNRM, using the Tchuma Tchato project at Bawa, Tete Province, Mozambique as a case study. A conceptual framework for a CBNRM project intervention is developed and used to analyse the Tchuma Tchato project. The role of external agents, and particularly the lead institution, is vital to a project intervention. It is shown that external agents need to be well organised, and they need to interact effectively as a team. External agents need to have the financial and human capacity, and an understanding of CBNRM to play a constructive and effective role in a time-bound project intervention. A project intervention must evolve from a top-down intervention into an autonomous CBNRM programme, that is sustainable, and that can contribute to a process of sustainable development and conservation after the end of a project life. In order to realise this, a project intervention must be rigorously planned and designed. This formulation is critical to the subsequent implementation and operation of a project. It is vital that a CBNRM addresses the key characteristics of CBNRM, and that in doing so, it delivers social, economic and environmental development to the targeted community. Analysis of the Tchuma Tchato project at Bawa has elucidated that the project is floundering. Application of the conceptual framework to Tchuma Tchato has established causes for this. The primary cause is a weakness in the roles played by the lead institution and external agents. The project was not rigorously formulated. The project has not been effectively managed. The project has failed to address the key characteristics of CBNRM, and it is not contributing to a process of sustainable development. This analysis has facilitated the identification of remedial actions for Tchuma Tchato at Bawa, and recommendations for future CBNRM projects have been made. / Thesis (M.Env.Dev.)-University of Natal, Pietermaritzburg, 1998.
4

Collective PV nano-grid for households in Linga Linga : A Minor Field Study in Mozambique

Diaz Hjelm, Wilma, Olsson, Ellie January 2022 (has links)
About a third of Mozambique’s population has access to electricity, and the same number in rural areas, where most of the population lives, is down to 5 %. Small-sized off-grid solutions are economical alternatives to increase the electricity access rate in rural areas, and solar power is a common energy source due to price and weather conditions. Still, the economical aspect is the main hindrance to an increased electrification rate in Africa. This report aims to investigate how to make electricity affordable, in a sustainable way, by answering the main research question “What is the capability, economically, socially, and technically, for a shared nano off-grid system in the village Linga Linga?”. This was done by performing a Minor Field Study in the village Linga Linga, in southern Mozambique, with the help of the non-profit organization Project Vita. A collective nano-grid photovoltaic (PV) system was installed to electrify three households, including nine houses and eleven people, where the wage earners are all women. Before the construction and installment of the PV system, the first round of two interviews was conducted to investigate the energy situation for the households. After the interviews, the main components of the energy system: PV panels, inverter, charge controller, batteries, and cables, were sized and purchased. The energy system was sized to cover an energy demand of eleven Light-Emitting Diode (LED)-lights, four 3 W and seven 5 W, lit all day and all night, and three outlets for charging cell phones eight hours a day. This corresponds to an energy demand of 1,369 Wh per day, and a maximum power demand of 77 W. The resulting system cost is 87,570 Mozambique Metical (MZN), or 1,400 United States Dollars (USD). When calculating the technical lifetime to be 20 years, three of the main components must be replaced. That results in a system cost of 122,470 MZN, 1,960 USD, and the cost per wage earner of the participating households is 4.3 % of the average Mozambican’s annual salary. After the system had been running for about a week, the second round of interviews was carried out. On the same occasion, the households were informed about the maintenance and usage of the system, and they were handed manuals and contracts to sign. The interviewees reported that they had been working for more hours a day, handicrafts being their main source of income, thanks to the electric lights. The women were positive about collective ownership and sharing electricity and stated that they prefer a collective system to separate ones, even for the same cost. The interviews showed that the energy demand was lower than what the system was sized for, meaning that a system designed for the actual energy demand would have been both cheaper and smaller. However, the energy behavior could change with time as society develops and the users get more familiar with electricity. No clear answers were obtained regarding the willingness to pay (WTP) for the system, and the interpretation is that the household, in their current situation, cannot consider buying an energy system comparable to the prototype built for this report, due to the system cost. A collective solar nano-grid in rural Mozambique is concluded to be a well-functioning solution and one of the more economical electrification alternatives. Although the prototype in this study was too expensive for the participating households to pay for by themselves, it could support sustainable development and open for possibilities like increased productivity and income. Moreover, it could be expanded by connecting more loads and upscaling to further cut the system cost per person and increase the societal benefits. / Ungefär en tredjedel av Moçambiques befolkning har tillgång till elektricitet, och motsvarande andel på landsbygden, där majoriteten av befolkningen bor, är 5 %. Mindre off-grid lösningar är ekonomiska alternativ för att elektrifiera landsbygden, där solkraft är en vanlig energikälla på grund av det relativt låga priset och väderförhållandena med goda förutsättningar. Den ekonomiska aspekten är dock fortfarande det främsta hindret för att öka Afrikas elektrifieringsgrad. Den här rapporten syftar till att undersöka hur elektricitet kan göras tillgänglig för alla, på ett hållbart sätt, genom att besvara frågeställningen ”Vad är möjligheterna, ekonomiskt, socialt, och tekniskt, för ett delat nano off-grid system i byn Linga Linga?”. Detta utreds genom att genomföra en Minor Fields Study i byn Linga Linga i södra Moçambique med hjälp av välgörenhetsorganisationen Project Vita. Ett nano-nätsystem drivet av solceller installerades, innefattande tre hushåll med nio hus och elva personer, med endast kvinnliga inkomsttagare. Innan byggnationen av solcellssystemet genomfördes intervjuer för att undersöka hushållens energisituation. De mest fundamentala systemkomponenterna; solcellspaneler, växelriktare, solcellsregulator, batterier och kablar, dimensionerades och införskaffades efter intervjuerna. Energisystemet utformades efter ett energibehov på elva Light-Emitting Diode (LED)-lampor, varav fyra 3 W och sju 5 W, tända dygnet runt, och tre uttag för att ladda mobiltelefoner åtta timmar om dagen. Detta motsvarar ett energibehov på 1,369 Wh per dag, och ett maximalt effektbehov på 77 W per dag. Den resulterande systemkostnaden är 87 570 Mozambique Metical (MZN), eller 1 400 United States Dollar (USD). För att räkna om systemkostnaden för en teknisk livslängd på 20 år måste tre av systemets huvudkomponenter bytas ut, vilket resulterar i en systemkostnad på 122 470 MZN, 1 960 USD. Kostnaden per inkomsttagare i de deltagande hushållen utgör då 4,3 % av den årliga moçambikiska medelinkomsten. När solcellssystemet varit i gång i en vecka utfördes en andra omgång intervjuer. I samband med detta informerades hushållen om skötsel och användning av systemet, och mottog manualer och kontrakt. Det framkom att kvinnorna, tack vare den elektriska belysningen, hade kunnat arbeta längre på kvällarna med sina hantverk - deras främsta inkomstkälla. De var positiva till det kollektiva ägandet av systemet och sade sig föredra ett delat system framför varsitt separat, även för samma kostnad per person. Intervjuerna visade att hushållens energikonsumtion var mindre än systemet var designat för. Ett system anpassat efter det verkliga energibehovet hade därmed blivit både mindre och billigare. Energianvändandet kan dock förändras i takt med samhällsutveckling och användarnas bekantskap med elektricitet. Inga tydliga svar angående betalningsvilja (WTP) för systemet mottogs, och tolkningen är att hushållen, i deras nuvarande situation, inte kan tänka sig köpa ett energisystem som är jämförbart med studiens prototyp, på grund av den höga systemkostnaden. Ett soldrivet kollektivt nano-nät på Moçambiques landsbygd bedöms vara en välfungerande elektrifieringslösning och ett av de mest ekonomiska elektrifieringsalternativen. Fastän studiens prototyp var för dyr för att de deltagande hushållen kan det ses stödja en hållbar utveckling genom att öppna upp för möjligheter såsom ökad produktivitet och inkomst. Systemet skulle även kunna expanderas genom att koppla in fler eller större last, och byggas i större skala för att dra ner systemkostnaden per person och öka samhällsnyttan.
5

Design of a Sustainable Energy System for a Community Center in rural Mozambique : A Minor Field Study in Mozambique

Säll Magnusson, Emilia, Hahn, Melchior January 2023 (has links)
Access to energy is an important part in the development of most countries and societies, linked to both social and economic growth. Nevertheless, 70% of the population in sub-Saharan Africa does not have access to electricity, which brings consequences to several of these areas. A country to which this largely applies is Mozambique, where the percentage of the country's population that had access to electricity in 2021 was only 31.5%. Working towards the goal of electrifying the least developed countries in a sustainable way, solar technology is believed to have potential to play a vital role, as 60% of the best terrestrial-based global solar resources of the world are located in sub-Saharan Africa. Mini-grids and solar off-grid solutions can further help address the issue of lack of electricity access, especially in rural areas. In previous studies carried out in the village Linga Linga in Mozambique, off-grid solar solutions have been implemented for a small energy demand. With the intention of giving a larger part of the village’s population access to energy services such as light, phone charging and computer access, this thesis will investigate and design an off-grid PV system for a community center in the village. The main research question that will be answered in this report is "How can solar energy be used to supply a community center in the village Linga Linga with a low-cost, reliable and sustainable electricity supply?". To answer the research question, relevant data and information were collected through a literature study on the situation in Mozambique, off-grid PV systems and on PV system components such as inverters, batteries, PV panels and charge controllers. Interviews were also carried out in the village to be able to calculate the expected energy demand of the community center. The community center’s daily energy demand for weekends was estimated to be the highest, at 7 544 Wh with a maximum power demand of 1 230 W. To meet this requirement, the main components were dimensioned so that the system had a maximum power of 2 000 W, a battery storage capacity of 750 Ah and a system voltage of 24 V. For this system, the approximate total cost of the main components was calculated to 56 120 SEK. / Tillgång till energi är en viktig del i utvecklingen av de flesta länder och samhällen, kopplat till både social och ekonomisk tillväxt. Ändå har 70% av befolkningen i Subsahariska Afrika inte tillgång till el, vilket får konsekvenser för flera av dessa områden. Ett land som detta till stor del gäller är Mozambique, där andelen av landets befolkning som hade tillgång till el 2021 endast var 31.5%. I arbetet mot målet att elektrifiera de minst utvecklade länderna på ett hållbart sätt tros solteknik ha potential att spela en avgörande roll, eftersom 60% av världens bästa jordbaserade globala solresurser finns i Subsahariska Afrika. Mininät och solenergilösningar utanför nätet kan ytterligare hjälpa till att lösa problemet med bristande tillgång till elektricitet, särskilt på landsbygden. I tidigare studier utförda i byn Linga Linga i Mozambique har off-grid solenergilösningar implementerats för att tillgodose energibehov för små system. Med avsikten att ge en större del av byns befolkning tillgång till energitjänster som ljus, telefonladdning och datoråtkomst, kommer detta examensarbete att undersöka och designa ett off-grid solcellssystem för ett kultur- och fritidscentrum i byn. Den huvudsakliga forskningsfrågan som kommer att besvaras i denna rapport är "Hur kan solenergi användas för att förse ett kultur- och fritidscentrum i byn Linga Linga med en låg kostnad, pålitlig och hållbar elförsörjning?". För att svara på forskningsfrågan samlades relevant data och information in genom en litteraturstudie om situationen i Mozambique, off-grid solcellssystem och om systemkomponenter såsom växelriktare, batterier, solpaneler och laddningsregulatorer. Intervjuer genomfördes även i byn för att kunna beräkna det förväntade energibehovet för kultur- och fritidscentrumet. Kultur- och fritidscentrumets dagliga energibehov för helger uppskattades vara högst, 7 544 Wh med ett maximalt effektbehov på 1 230 W. För att möta detta krav valdes huvudkomponenterna så att systemet hade en maximal effekt på 2 000 W, en batterilagringskapacitet på 750 Ah och en systemspänning på 24 V. För detta system beräknades den ungefärliga totalkostnaden för huvudkomponenterna till 56 120 SEK.
6

SMALL SCALE POWER GENERATION FOR A RURAL MEDICAL CLINIC : A minor field study in Linga Linga, Mozambique / Småskalig kraftproduktion för en klinik på landsbygden : En mindre fältstudie i Linga Linga, Mozambique

Nilsson, Hampus, Lindqvist, David January 2019 (has links)
In Sub-Saharan Africa, 76 % of the population lack access to electricity. This situation prohibits economic growth, causes major health issues, and impedes the education of its populace. Considerable work and effort are being made to increase the populace’s access to electricity. Even small amounts of electricity can make a difference and increase the quality of life. There have been several studies conducted that investigate possible solutions for small scale power generation in Mozambique, but the proposed solutions have not been implemented. Other studies have been carried out that investigate practical solutions for small scale power generation and implementing them, albeit not in Mozambique. This thesis therefore tries to cover the entire spectra, from possible solution to practical implementation, in Mozambique. This thesis is conducted as a case study, with a rural clinic in the village of Linga Linga, Mozambique, as case. The thesis analyses the clinic’s energy demand, the most suitable renewable energy resource for the clinic as well as local materials and components to construct a small scale power generation solution. The main research question that is answered is "What renewable and sustainable small scale power generation solution can be built, using local resources, to deliver electricity to a rural medical clinic?". To answer the main research question, necessary information was gathered, where Mozambique’s energy situation, renewable energy technologies in general and previous small scale energy projects in particular were studied. Thereafter, the energy demand as well as the daily variation of demand were investigated. An evaluation of which renewable energy resources that were locally available and most suitable was also conducted. Finally, a small scale power generation solution, using local material and components, was constructed and evaluated. The energy demand of the clinic was estimated to be 2 795 Wh per day, with a maximum power demand of 150 W. The energy demand consisted of five lamps and one refrigerator. Solar energy was evaluated as the renewable energy resource most suitable for the particular area. Moreover, a solar power system was constructed, with a maximum power of 880 W and a total battery energy capacity of 5 760 Wh, of which 50 % can be utilised without risking the health and lifetime of the batteries. The total cost for the solar power system amounted to 141 482 MZN, corresponding to circa 20 447 SEK. The purpose with the thesis was to evaluate a viable way to produce electricity and to implement a practical solution for a medical clinic. With a solar power system in place, the life quality of the inhabitants in Linga Linga has been improved. Looking forward, this thesis provides a piece of the puzzle for how electrification of rural Sub-Saharan Africa can be conducted, from energy demand to installation, and contributes to the Agenda 2030 goal of clean energy for everyone. / I Subsahariska Afrika saknar 76 % av invånarna tillgång till elektricitet. Detta leder till försämrad ekonomisk tillväxt, betydande hälsoproblem och undermåliga utbildningsresultat. Omfattande arbete och åtgärder genomförs för att förbättra situationen och öka tillgången till elektricitet. Även den minsta mängd elektricitet kan göra skillnad och höja livskvaliteten. Flera studier har gjorts där möjliga lösningar för småskalig kraftproduktion i Moçambique utreds, men inga föreslagna lösningar har implementerats. Det har också gjorts studier som har undersökt praktiska lösningar för småskalig kraftproduktion och därefter implementerat dessa, om än inte i Moçambique. Denna studie försöker därför täcka hela spektrat, från möjlig lösning till implementering, i Moçambique. Denna studie genomförs som en fältstudie där en klinik i byn Linga Linga på den moçambikanska landsbygden står i fokus. Studien analyserar klinikens energibehov, den mest lämpliga förnybara energikällan samt de mest lämpliga lokala materialen och komponenterna nödvändiga för att bygga en småskalig kraftproduktionslösning. Huvudfrågan som utreds och besvaras är: "Vilken förnyelsebar och hållbar småskalig kraftproduktionslösning kan byggas med lokala resurser för att förse en medicinsk klinik på landsbyggden med elektricitet?". För att besvara huvudfrågan har nödvändig information inhämtats, där energisituationen i Moçambique, förnybara energiteknologier och tidigare projekt rörande småskalig kraftproduktion studerats. Därefter undersöktes energibehovet och den dagliga variationen av energiförbrukningen i kliniken. Vidare utvärderades vilka förnybara energikällor som var lokalt tillgängliga och mest lämpliga. Slutligen konstruerades en småskalig kraftproduktionslösning av lokalt tillgängliga material och komponenter. Energibehovet för kliniken uppskattades till 2 795 Wh per dag, med ett maximalt effektbehov om 150 W. Energibehovet består av fem lampor och ett kylskåp. Solenergi utvärderades som den lämpligaste energikällan för applikationen. Ett solkraftssystem konstruerades också, med en maximal effekt om 880 W och en total batterikapacitet om 5 760 Wh, av vilken 50 % kan användas. Den totala kostnaden för systemet uppgick till 141 482 MZN, motsvarande cirka 20 447 SEK. Avsikten med denna studie var att utvärdera både en teoretisk möjlig lösning såväl som en praktisk implementering av en kraftproduktionslösning till en klinik. Med ett system på plats, har nu livskvaliteten för invånarna förbättrats. För den framtida forskningen bidrar denna studie till att lägga kunskapspusslet om hur elektrifiering av subsahariska Afrika kan genomföras, från energibehov till installation, och bidrar därmed till Agenda 2030 och det globala målet om hållbar energi för alla. / Na África subsaariana, 76 % da população não tem acesso a electricidade. Este problema inibe o crescimento económico, causa enormes problemas de saúde e conduz a precários resultados em matéria de educação. Trabalhos e esforços consideráveis têm sido envidados no sentido de aumentar o acesso à rede eléctrica. Por menor que seja o sinal de energia, pode fazer a diferença e melhorar a qualidade de vida. Diversos estudos têm sido realizados com vista a encontrar possíveis soluções para geração de energia de pequena escala em Moçambique contudo, as soluções propostas não chegaram a ser implementadas. Outros estudos foram levados a cabo de forma a encontrar soluções práticas de geração de energia em pequena escala e a sua implementação mas não em Moçambique. Esta tese, por sua vez, procura cobrir o espectro completo, partindo de uma possível solução para uma implementação prática em Mocambique. Esta tese é realizada como um estudo de caso, baseado em uma clínica localizada na vila de Linga Linga, Moçambique. A tese analisa a demanda de energia da clínica, os recursos de energia renováveis mais apropriados assim como os materiais locais e componentes necessários para a construção de um gerador de energia de pequena escala. A principal questão da pesquisa a qual se responde é " Que geradores de energia de pequena escala renováveis e sustentáveis se podem construir com o uso de recursos locais por forma a fornecer energia a uma clínica médica?". Para responder a principal questão da pesquisa, foi levada a cabo uma revisão literária, onde se estudadou a situação de acesso a energia em Moçambique, as tecnologias de energias renováveis no geral e os projectos anteriores voltados para a energia de pequena escala. Em seguida, a procura pela energia foi de igual modo investigada como variação diária. Foi feita uma avaliação sobre os recursos de energias renováveis disponíveis localmente e os mais apropriados. Por fim, uma solução para geração de energia de pequena escala com recurso a materiais e componentes locais foi construída e avaliada. A demanda da clínica foi estimada em 2 795 Wh por dia, com uma demanda máxima de 150 W de energia. As exigências de energia consistiam em cinco lâmpadas e um refrigerador. A energia solar foi avaliada como sendo a energia renovável mais apropriada para a área em particular. Adicionalmente, foi construído um sistema de energia solar com potência máxima de 880 W e uma capacidade total da bateria de 5 760 Wh, dos quais se pode usar 50 %. O custo total do sistema de energia solar totalizou 141 482 MZN, correspondendo a cerca de 20 447 SEK. A tese tenciona avaliar uma forma viável de produzir electricidade e implementar uma solução prática para uma clínica médica. Com o sistema de energia solar estabelecido, a qualidade de vida dos habitantes de Linga Linga foi melhorada. Olhando para frente, esta tese oferece uma solução sobre como se pode processar a electrificação da África subsaariana, desde a demanda pela energia até a sua instalação e seu contributo para a meta energia limpa para todos da Agenda 2030.

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