Implementação de modelo computacional empregando ferramenta de CFD para análise do comportamento hidráulico de bomba carneiro não industrial
Resumo
In urban settlements or rural areas households are often located near regions with
abundant water availability. However, in many cases, there is a lack of financial resources
for the acquisition and implementation of basic electrical infrastructure for conventional
water supply solutions. Hydraulic rams or ram pumps are devices used to elevate water,
and they operate using only hydraulic energy. These devices can be seen as a sustainable
alternative for water transportation. However, when analyzing the current scientific
production on the subject, many obstacles are encountered. The scientific output is limited
to this day, and there is also a noticeable absence of studies focused on agronomy and
agriculture, the development of low-cost hydraulic ram models, the use of new
technologies for modeling, and the optimization of the ram pump model. In this context,
computational fluid dynamics, also known as CFD, can be seen as a solution. This study
aims to apply CFD techniques in the internal flow modeling of a non-industrial ram pump.
The 3D model of the ram pump was constructed using Blender software, based on the
study by Oliveira Junior et al (2021). Initially, it was decided to use OpenFOAM software
for the simulations; however, due to difficulties encountered in adapting the mesh to the
program, it was changed to Ansys Discovery 2023 software. Four different meshes were
developed, four scenarios were created for the simulation, varying the volume of the air
chamber, each of them containing seven simulations, varying the pressure loads. Results
unveiled fundamental operational principles of the hydraulic ram, including the influence
of pressure load at the pump inlet on inlet flow, the relationship between pressure loads
at the outlet and inlet, and the significance of air chamber size in water displacement.
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