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Utveckling av bevattningsprodukt för verksamheter / Development of irrigation product for businessesWirdemo, Andreas, Karida, Déspina January 2021 (has links)
Det förändrade klimatet innebär fler och längre perioder av torka och därmed minskad vattentillgång. En del dricksvatten används för bevattning av växter, trots att regnvatten duger lika bra. Det finns många regnvattentunnor och liknande produkter som samlar in och tillgängliggör regnvatten för bevattning. Dessa produkter är lämpliga för villaägare men är för småskaliga för större verksamheter. Avsikten för detta arbete är att få verksamheter att minska sin dricksvattenförbrukning. Detta sker genom att utveckla en produkt som möjliggör insamling och bevattning av regnvatten. Initiativet till detta arbete kommer från kommunalförbundet VA SYD som dels vill minska belastningen på ledningsnäten men även få verksamheter att minska sin dricksvattenkonsumtion. Arbetet omfattar metoder som berör produktutveckling, hållfasthetsberäkningar och materialval. Produktutvecklingen innefattar marknadsanalyser, studiebesök, konceptgenerering och -utvärdering. Hållfasthetsberäkningarna inkluderar beräkningar av spänning i konsolbalk, knäckning och kompression samt momentjämvikt och vindlastberäkning. Sex olika koncept framtas i konceptgenereringen som skissas och beskrivs innan ett konceptval görs i konceptutvärderingen. Därefter utvecklas det valda konceptet på detaljnivå. Resultatet är en produkt som samlar in vatten och bevattnar små växter. Vatten sparas framförallt genom att det recirkuleras i produkten. Konceptet visualiseras med hjälp av 3D-modellering. Genom att använda denna produkt minskar verksamheter sin dricksvattenkonsumtion och sparar dessutom arbetstid som annars skulle ägnats åt bevattning. The changing climate means more and longer periods of drought and thus reduced water supply. Some drinking water is used for irrigating plants, although rainwater is just as good. There are many rainwater barrels and similar products that collect and make rainwater available for irrigation. These products are suitable for homeowners but they are too small-scale for larger businesses. The purpose of this project is to get businesses to reduce their drinking water consumption. This is done by developing a product that enables collection of and irrigation of rainwater. The initiative for this project comes from the municipal association VA SYD, which wants to reduce the load on the pipe networks but also make businesses reduce their drinking water consumption. The project includes methods that concern product development, calculations of strength and material selection. Product development includes market analyzes, study visits, concept generation and evaluation. The calculations of strength include calculations of stress in a console beam, buckling and compression as well as moment equilibrium and wind load. Six different concepts are developed in the concept generation which are sketched and described before a concept choice is made in the concept evaluation. The selected concept is developed in detail. The result is a product that collects water and irrigates small plants. Water is saved primarily by recycling it in the product. The concept is visualized using 3D-modelling. By using this product, businesses reduce their drinking water consumption and also save working time that would otherwise be used for manual irrigation.
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The market potential for the floppy sprinkler irrigation system in the global agricultural sectorBreytenbach, Adell 03 1900 (has links)
Thesis (MBA)--Stellenbosch University, 2012. / This research study analyses the market potential for the Floppy Sprinkler irrigation system in the global market. It explores the global irrigation market and its environment to identify the driving forces that influence the industry as well as the potential that Floppy Sprinkler could unleash as a competitor. The researcher assesses the industry value chain to determine the fit and alliance opportunities for Floppy Sprinkler in the value chain. The study further analyses the competitive pressures influencing the competitive environment.
Applied research is used in this study to gain a comprehensive understanding of the market. Acknowledged diagnostic models in the field of strategic management were used to guide the study. These included the PESTLE analysis to evaluate the macro-environment of the agriculture sector; the value chain analysis to assess the agricultural industry value chain; Porter’s Five Forces Model to analyse the competitive pressures for Floppy Sprinkler; and the SWOT analysis to identify the strengths, weaknesses, opportunities and threats. The relevant data were collected through both primary and secondary sources. Two questionnaires were designed, the first to industry specialists in the agriculture sector with the purpose to gain insight of the irrigation and agriculture environment; and the second to Floppy Sprinkler irrigation system users, with the purpose to obtain a rating, opinion and relevance of the product in the market.
The research disclosed that forces within the macro environment influence the industry significantly. These specifically revolved around climate change, water scarcity, land availability, soil degradation, population growth and changing lifestyles. The value chain analysis revealed that opportunities exist in the agriculture industry to create horizontal and vertical alliances to strengthen Floppy Sprinkler’s position in the market. Competitive pressures in the market include direct competitors of Floppy Sprinkler, as well as the bargaining power of suppliers and buyers. Threat of new entrants and substitute products are not perceived to be immediate competitive pressures for Floppy Sprinkler owing to its cutting-edge technology, which offers a distinctive competitive advantage. Finally, opportunities were identified, which served as recommendations for Floppy Sprinkler in developing its strategy.
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Saving water in farming : methodology for water conservation verification efforts in the agricultural sectorRamirez Huerta, Ana Karina 14 July 2014 (has links)
This dissertation develops, tests and validates statistical methods for verifying the amount of water conserved as a result of investments in precision leveling, other on-farm conservation measures in place, weather variation and farmer behavior. This evaluation uses a sample of 328 unique fields from Lakeside Irrigation Division in Texas over a six-year period, totaling 966 observations. Results show that precision leveling accounts for a 0.30 acre-feet reduction of irrigation water per acre leveled. This Mixed-Level Model (MLM) estimate for precision leveling water savings is more precise than the estimates either from an Ordinary Least Square Model or a Fixed Effect Model. A meta analysis combines the results from this model with other similar studies. Although the mean estimate of the meta-analysis is similar to the MLM estimate, the meta-analysis further reduces the standard error of the mean precision leveling estimate by 2 percent. A better approximation of the acre-feet water savings per acre farmed translates into less uncertainty for water regulators, managers and policymakers regarding the volume of conserved water that is available for transfer. / text
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Water Decision-Making Under UncertaintyOdame, Augustina Yaa Oye 01 May 2015 (has links)
This dissertation is made up of three separate studies under the unifying theme of “Water Decision-Making under Uncertainty.” The first study analyzed a farmer’s decision to invest in a more efficient irrigation system given uncertainty about future water supplies and his post-investment efficiency. It found the price at which farmers would no longer produce to be a bigger consideration in irrigation investment than previously thought. It also found support for a careful identification and consideration of all significant sources of uncertainty in order to create better policy incentives for irrigation technology investments.
The second study extended the first to allow the farmer to gradually update his irrigation system rather than undertake a single, complete overhaul. It found that giving the farmer this option, has significant impact and potential with regards to investments meant to effect behavioral change for improved system outcomes such as more efficient irrigation systems towards regional water conservation goals.
The third and final chapter established a spatially explicit hydroeconomic model of water-use behavior in the Cache Valley of Utah to evaluate the impact of individual decisions, actions and interactions on available water supplies, and whether and how a water master’s privileged information about the behavior of users in his system may be used to improve system outcomes for users in the canal, downstream water requirements and storm-water management.
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Applicability of drip irrigation for smallholder farmers: A case study of the horticultural industry in TanzaniaMsuya, Kassim Jumanne January 2016 (has links)
No description available.
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Irrigation scheduling, crop choices and impact of an irrigation technology upgrade on the Kansas High Plains AquiferUpendram, Sreedhar January 1900 (has links)
Doctor of Philosophy / Department of Agricultural Economics / Jeffrey M. Peterson / The High Plains aquifer is a primary source of irrigation in western Kansas. Since World War II, producers increased irrigation and the irrigated acreage with the widespread adoption of newer irrigation technologies, causing a reduction in the saturated thickness of the High Plains aquifer. In an effort to conserve water and reduce further decline of the aquifer, the state of Kansas administered cost-share programs to producers who upgraded to an efficient irrigation system. But evidence suggests that the efforts to reduce water consumption have been undermined by producers, who under certain conditions have increased irrigation and irrigated acreage of high-valued and water-intensive crops. The state of Kansas is in a quandary to reduce water consumption and stabilize the saturated thickness of the aquifer while maintaining the economic viability of irrigated agriculture.
A producer is faced with the choice of crop, irrigation timing and irrigation technology at the start of the season. This research identifies the conditions for risk-efficient crop choices and estimates the effect of an irrigation technology upgrade on the aquifer. Simulation models based on data from Tribune, Kansas were executed under various scenarios, varying by crop (corn or sorghum), irrigation system (conventional center-pivot or center-pivot with drop nozzles) and well capacity (190, 285 or 570 gallons per minute). Each well capacity was associated with a pre-season soil moisture level (0.40, 0.60 or 0.80 of field capacity). Each scenario was simulated over weather data observed during the 36-year period (1971-2006).
Results indicate that producers with slower wells could maximize their net returns while conserving water by choosing less water-intensive crops like sorghum, while irrigating with a conventional center-pivot irrigation system. Producers with faster wells could maximize net returns by choosing water-intensive crops like corn and irrigate with the more efficient center-pivot with drop nozzle irrigation system. In order to reduce groundwater consumption and maintain the saturated thickness of the aquifer, water policies should internalize the interests of all stakeholders and be a combination of irrigation technology, economic factors, hydrological conditions, agronomic practices, conservation practices and local dynamics of the region.
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Access to irrigation technology and technical efficiency: a comparison of households with and without access to irrigation technology, in ‘Gorogutu district’, Eastern EthiopiaGebrekidan, Bisrat Haile January 2012 (has links)
Magister Economicae - MEcon / Despite its recent remarkable economic growth, Ethiopia remains one of the poorest
countries in the world. More than 80 percent of Ethiopians obtain their livelihood
from traditional low-productivity agricultural activities. Due to lack of water storage
facilities and the erratic nature of rainfalls, most farmers don’t have access to water
to produce more than one crop per year and hence there are frequent crop failures
due to droughts which have made the country one of the highest food insecure
nations and receiver of food aid. It is evident that a comprehensive effort is required to increase crop and agricultural production through different intensification and productivity enhancement mechanisms and reduce rural household’s food insecurity and poverty. In line with this the Government of Ethiopia and different NGO’s have been promoting irrigation technology as a viable option in enhancing farm productivity and efficiency improvements.By integrating field observations, economic theory, and econometric analysis, this study assess the extent to which access to irrigation technology affects the level of technical efficiency in Gorogutu district of Eastern Ethiopia. The analysis is based on primary household-level data collected from 100 randomly selected households in 20010/11 cropping season. To analyze the effect of the technology on technical efficiency, three different Cobb-Douglas type of Stochastic Production Functions were estimated. More so, to explore different socio- economic and institutional determinants of technical efficiency in the study district, an inefficiency effect
model was estimated using the one step procedure.The result from the estimated models has shown that farm households in the study area are not technically efficient and there is a chance to increase output by using the technology and mix of production input used by the best farm household (with 20 percent technical inefficiency). In addition, it also showed that households with access to irrigation technology are more technically efficient (84 percent technical efficiency) than those without access to the technology (77 percent technical efficiency). And household’s access to irrigation technology, access to extension service and distance travelled from farm plot to homestead are a significant determinant of technical efficiency in the study area.The study recommended, among other things, as a country that has a huge potential for irrigation development, utilization of this potential and providing irrigation technology to farm households will have a huge impact on the livelihoods of the majority of the poor. Evidently, efforts tailored towards this end would be very essential in militating against the high levels of poverty that is persistent in the communities
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Irrigation systemsMohamed, Nahla Abdel-Fattah Hemdan 04 June 2014 (has links)
In der Wintersaison 2005-2006 wurde ein Split-Split Plot-Design Feldversuch mit drei Wiederholungen für jede Behandlung von Kartoffeln, als Indikatorpflanze, unter den ariden Bedingungen der Kharga Oasis in der Westlichen Wüste von Ägypten durchgeführt. Drei Bewässerungslevel (100 %, 80 %, und 60 % of ETc) mit Tröpfchenbewässerung, zwei Mulchvarianten (Zuckerrübenabfall ohne und mit 24 ton ha-1) und 4 Kompostraten (0, 12, 24, und 36 ton ha-1) wurden getestet. Generell und als Ergebnis einer Regressionsanalyse der Versuchsvarianten ohne Kompost war die beste Variante die Tröpfchenbewässerung bei 80% ETc unabhängig ob gemulcht oder nicht gemulcht wurde. Andererseits die Variante mit 36 t Kompost und mit 24 t Mulch ergab die besten Ergebnisse bei 60% of ETc sowohl beim Ertrag und den Ertragskomponenten, bei den hydrophysikalischen Eigenschaften, bei der Bodenwasserretention, beim Wasserverbrauch, bei den Pflanzenkoeffizienten, der Wassernutzungseffizienz, der Düngernutzungseffizienz sowie beim Nettogewinn. Wird die Rate der Kompostgabe aber auf 24 ton ha-1 reduziert, die höchsten Nettogewinne bei der lokalen Vermarktung als auch signifikant beim Kartoffelexport werden erreicht. / Under the arid condition of Kharga Oasis in the Western Desert of Egypt, split-split plot design field experiment with three replications for each treatment using potato as an indicator plant was carried out during the winter season 2005-2006. Three irrigation levels of water regime (100 %, 80 %, and 60 % of ETc) using drip irrigation system, two treatments of soil covering (sugar cane wastes at the rate of 0 and 24 ton /ha) and compost rates (0, 12, 24, and 36 ton ha-1) were tested. In general and as a result of the triple interaction among the studied treatments, using drip irrigation either with soil mulching or not, 80 % of ETc as a water regime was the best. On the other hand, reducing drip irrigation water level at 60% of ETc in mulched soil that was treated with 36 ton ha-1 of compost recorded the highest values yield and yield components, soil hydrophysical properties, soil water retention, water consumption, crop coefficients, water economy water use efficiency, fertilizer use efficiency, net profit. But reducing the compost rate to 24 ton ha-1 attained the highest net profit for local potato consumption and achieved the best significant net profit for exportation.
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