Design and experimental investigation of a thermoelectric vaccine
In this study, the design and manufacturing of a photovoltaic solar energy-driven, nanofluid-integrated thermoelectric vaccine cabinet was carried out and its performance data were
IEEE Paper Template in A4 (V1)
This paper investigates a photovoltaic vaccine refrigerator based on absorption cooling system for remote areas when grid connection is not feasible.
Photovoltaic GEM Vaccine
Design and experimental investigation of a thermoelectric vaccine a photovoltaic solar energy-driven, nanouid-integrated thermoelectric vaccine cabinet was carried out and its performance data were
Photovoltaic vaccine refrigeration at Centro De Salud
Discover how a photovoltaic system powers the vaccine refrigerator at Centro De Salud in Mexico, enhancing reliability and preventing vaccine spoilage.
Biological Vaccine Photovoltaic GEM
Recombinant PV virus-like particles (VLPs), lacking the viral genome, represent safe next-generation vaccines, however their production requires optimisation. Stabilized ECs, expressed recombinantly
A nanoparticle vaccine displaying varicella-zoster virus gE antigen
Here, we developed novel vaccine candidates utilising multiple nanoparticle (NP) platforms to display the recombinant gE antigen, formulated in an MF59-biosimilar adjuvant.
Design and experimental investigation of a thermoelectric vaccine
Thanks to the photovoltaic (PV) panel placed on the vaccine cabinet, part of the required electrical energy can be met from solar energy and stored with a battery placed in the cabinet. During the
SOLAR PHOTOVOLTAIC REFRIGERATION OF VACCINES
Over the past five years, at least 3000 photovoltaic medical refrigerators have been installed. All vaccines have to be kept within a limited temperature range throughout transportation and storage.
(PDF) A Photovoltaic Solar Refrigeration System for Vaccine
In remote areas where electricity is not available, preservation of vaccines becomes a very serious concern. In order to provide the means to preserve the vaccines in remote areas, a portable
Energy analysis of a solar driven vaccine refrigerator using
In this paper, a detailed methodology has been presented for the performance evaluation of a solar PV powered vaccine refrigerator for remote locations. Thermal modelling with hourly