The
stability of a series of Co/Al2O3 and
Re–Co/Al2O3 Fischer–Tropsch (FT)
catalysts, with varying Co particle size, was measured in a continuous
flow, stirred tank reactor operated at 220 °C, 2.1 MPa and with
a H2/CO = 2/1 synthesis gas for periods up to 190 h time-on-stream
(TOS). Results showed that catalyst stability was dependent upon the
Co particle size, the degree-of-reduction (DOR) of the catalyst precursor,
and the CO conversion. At the chosen operating conditions, carbon
deposition was the main cause of catalyst deactivation and the initial
rate of carbon deposition per active Co site increased with increased
Co particle size (d
Co
= 2–22 nm) when measured at approximately the same CO conversion
level. On the 15 wt % Co/Al2O3 catalyst the
initial rate of carbon deposition increased with CO conversion (CO
conversion ≤40%) whereas, on the 1.2 wt %Re-12 wt %Co/Al2O3 catalyst, the initial rate of carbon deposition
decreased with increased CO conversion (CO conversions >60%) due
to
high concentrations of H2O and CO2 in the reactor.
Most pulmonary rehabilitation (PR) programs have had to adapt due to the COVID-19 pandemic and associated restrictions. Current alternative home-based programs have limitations and require modification. In this paper, we outline a novel method to monitor home-based PR programs, which has the potential to improve PR safety and efficacy. This new method is based on a remote patient monitoring (RPM) system with connected smart devices that enables the Respiratory Therapist (RT) to have real-time access to patient data including heart rate and peripheral oxygen saturation during exercise. The RPM system also monitors daily physical activity, sedentary time, sleep quality, rescue inhaler use, and maintenance inhaler adherence, among other variables, which has the added advantage of predicting patterns consistent with symptoms that may require medical intervention. To increase privacy, data are anonymized at all levels and only the RT has access to patient information. RPM systems have the potential to give practitioners a holistic view of the participants’ health status to better evaluate them during the entire PR program and to improve self-management. As this is not a formal research study, we cannot make definitive conclusions about the efficacy of the system, and further research is needed to examine safety and to compare our approach to other ways of conducting PR.
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