Authors :
Evita Tiara Maharani; Khairunnisa Syahputra; Ervinawati Elyaswanto; Eko Yulianto; Siti Susanti; Sumariyah Sumariyah; Fadhilah Nur Fahada; K. Sofyan Firdausi; Muhammad Nurb
Volume/Issue :
Volume 8 - 2023, Issue 11 - November
Google Scholar :
https://tinyurl.com/43pdv6cz
Scribd :
https://tinyurl.com/2adyr2cc
DOI :
https://doi.org/10.5281/zenodo.10219370
Abstract :
The influence of flow rate and voltage in the
Double Dielectic Barrier Discharge (DDBD) reactor in
producing medical ozone has been carried out. The aim
of this study was to obtain medical ozone as a standard
dose for Major Autohemotherapy (MAH) in cases of
hyperglycemia. DDBD is a double cylinder made of
borosilicate glass with a thickness of 0.2 cm and
electrodes made of aluminum mesh with a length of 6.2
cm, an inner diameter of 2 cm and an outer diameter of
4.2 cm. The input gas is oxygen (O2) with flowrates of 0.2
L/minute-0.8 L/minute. At the flowrate limit used, this
study found that the ozone concentration increased with
increasing flowrate and operating voltage. The standard
dose of MAH which is in accordance with the provisions
of the Madrid Declaration for cases of diabetes
mellitus/hyperglycemia, the specific dose is at the flow
rate. of 0.4 L/min and a voltage of 3400 V, concentration
of 293.64 μg/ml, capacity of 117.45 μg/second, with a
dose obtained for the low dose of 18 μg and the high dose
of 33 μg.
Keywords :
Medical ozone, double dielectric barrier discharge, major autohemoteraphy (MAH), hiperglikemia.
The influence of flow rate and voltage in the
Double Dielectic Barrier Discharge (DDBD) reactor in
producing medical ozone has been carried out. The aim
of this study was to obtain medical ozone as a standard
dose for Major Autohemotherapy (MAH) in cases of
hyperglycemia. DDBD is a double cylinder made of
borosilicate glass with a thickness of 0.2 cm and
electrodes made of aluminum mesh with a length of 6.2
cm, an inner diameter of 2 cm and an outer diameter of
4.2 cm. The input gas is oxygen (O2) with flowrates of 0.2
L/minute-0.8 L/minute. At the flowrate limit used, this
study found that the ozone concentration increased with
increasing flowrate and operating voltage. The standard
dose of MAH which is in accordance with the provisions
of the Madrid Declaration for cases of diabetes
mellitus/hyperglycemia, the specific dose is at the flow
rate. of 0.4 L/min and a voltage of 3400 V, concentration
of 293.64 μg/ml, capacity of 117.45 μg/second, with a
dose obtained for the low dose of 18 μg and the high dose
of 33 μg.
Keywords :
Medical ozone, double dielectric barrier discharge, major autohemoteraphy (MAH), hiperglikemia.