Vanessa de Fátima Gráh scite author profile

RESUMOO uso econômico da água garantirá que políticas e práticas de irrigação sejam sustentáveis, para que no futuro um terço da alimentação mundial possa continuar a vir de 15% da superfície terrestre do planeta. Em algumas regiões do Brasil, existem inúmeras propriedades rurais que não possuem o fornecimento público de energia elétrica. Nesses locais, para que a agricultura irrigada moderna e automatizada possa ser introduzida é necessária a utilização de bombas e equipamentos que dispensam o emprego de energia elétrica. Diante deste cenário, idealizou-se um bombeamento da água de irrigação por um sistema de roda hidráulica associado à automação da irrigação por gotejamento a partir, apenas, de energia hidráulico-mecânica. Para isso utilizou-se o mesmo princípio do sistema de acionamento automático para aspersão em malha, desenvolvido por Grah (2011). O objetivo do presente trabalho foi demonstrar a viabilidade técnica de uma alternativa para o bombeamento de água para uma irrigação automatizada sem uso de energia elétrica. O equipamento de automação desenvolvido para aspersão em malha, também pode ser utilizado para sequenciar parcelas de irrigação localizada. Os resultados revelaram que o sequenciador automático é uma alternativa técnica viável, que pode ser aplicada em propriedades de pequeno e médio porte que não possuem disponibilidade de energia elétrica. Palavras ABSTRACTParsimonious use of water will ensure irrigation policies and practices are sustainable, so that into the future one third of the world's food can continue to come from just 15% of the earth's land area. In some regions of Brazil, there are many farms that have no public supply of

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Avaliação do posicionamento de geradores fotovoltaicos com sistema rastreador manual aplicado ao bombeamento de água para irrigação

Gráh¹

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Cost Analysis of Water Pumping Using Solar Energy and Diesel in Drip Irrigation

Alves¹,

Pinto²,

Damasceno³

et al. 2014

R_I

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There are several sources of power for driving motors, but electric motors and diesel engines are most commonly used in irrigation in Brazil. However, the use of diesel engines typically occurs in areas without electricity nearby, making it generally viable. Another option is to use sunlight as an alternate energy source, but this system is not widely used due to its high initial cost, and its use is mainly limited to places where there is no electricity. In view of this, the economic analysis of water pumping systems in agriculture is critical, because the capital employed is often high and the annual costs may or may not enable the agricultural activities that use them. Therefore, the objective of this study was to compare water pumping costs using an electric motor powered by solar energy and a diesel motor in a drip irrigation system with microtubes. It was considered an area of 1 ha, planted with vegetable crops whose water demand is 5.6 mm, under drip irrigation. This area was divided into eight parts, each of them being irrigated for 1 hour. The lift system for pumping water that used solar energy had lower total cost and higher initial investment cost. The lift system with solar energy is more economically viable when compared with the system running on diesel. The pumping cost was the deciding factor in the analysis of the costs of water pumping systems.

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