Preprint Article Version 1 Preserved in Portico This version is not peer-reviewed

Design and Analysis of a Mechanical Ventilation System Based on Cams

Version 1 : Received: 16 December 2020 / Approved: 17 December 2020 / Online: 17 December 2020 (16:25:13 CET)

How to cite: Calderón, J.; Rincón, C.; Agreda, B.; Jiménez, J.J. Design and Analysis of a Mechanical Ventilation System Based on Cams. Preprints 2020, 2020120439 (doi: 10.20944/preprints202012.0439.v1). Calderón, J.; Rincón, C.; Agreda, B.; Jiménez, J.J. Design and Analysis of a Mechanical Ventilation System Based on Cams. Preprints 2020, 2020120439 (doi: 10.20944/preprints202012.0439.v1).

Abstract

A mechanical ventilation system is a big support for breathing complications, in which an external solution is quite necessary to keep oxygen compensation in the patients. Its knowledge is well widespread and different equipment has been developed. However, they are very expensive and their quantity in medical centers is not sufficient, especially in Peru. Hence, it has been required to develop new methods to provide oxygen by a low cost equipment; Protofy, a research group from Spain, designed one of the first low cost mechanical ventilation systems which was medically validated by its government. In this sense, a redesign of the mechanical ventilation system was carried out according to the local requirements and available technology, a different airbag resuscitator with different properties and geometry, but maintaining its working concept based on a cam compression mechanism. Sensors and a display were added to improve the performance with a control algorithm for the rotation frequency and to show the ventilation curves over time to the medical staff. It was necessary to develop a mathematical model to relate the behavior between ventilation curves for a patient and physical variables of the design, especially in the epidemic COVID 19, that many countries are dealing with at the time research is being conducted. The mechanical ventilation system was redesigned, fabricated, and tested measuring its ventilation curves over time. Results indicate that this redesign provides a sturdy equipment able to work during a longer lifetime than the original. The replicability of the ventilation curves behavior is assured, while the mechanism dimensions are adapted for a particular airbag resuscitator. The mathematical model of the whole system can predict satisfactorily the ventilation curves over time and was used to provide the air pressure, volume, and flow as a function of the rotation angle measured by sensors.

Subject Areas

mechanical ventilation design; low cost mechanical ventilator; experimental ventilation curves; mechanical ventilation mathematical model; COVID-19

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