@article{ART003132778},
author={SCJang and kweon min-su},
title={Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers},
journal={Journal of Internet of Things and Convergence},
issn={2466-0078},
year={2024},
volume={10},
number={5},
pages={207-212}
TY - JOUR
AU - SCJang
AU - kweon min-su
TI - Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers
JO - Journal of Internet of Things and Convergence
PY - 2024
VL - 10
IS - 5
PB - The Korea Internet of Things Society
SP - 207
EP - 212
SN - 2466-0078
AB - Conventional marine heat exchangers have a monotonous flow path of marine engine fuel, so the contact time of the heating medium with the heat exchange tube is very short, resulting in low heating efficiency. Since it is made in a tubular shape, it is made in a very large volume regardless of the heating efficiency, so it is necessary to secure the installation space of the heating device, as well as it is difficult to install or remove it. Since the plate heat exchanger for ships to be developed in this study directly heats the marine fuel, the temperature detection sensor of the electric heater block was configured to prevent excessive temperature rise. If the detected temperature is higher than the set temperature value, a power cut-off system is configured to cut off the authorized power to the heater block. In addition, 10 tons of marine engine fuel can be heated per hour through the heater of the plate heat exchanger, and the maximum temperature can be set to 150°C. In this study, we designed and manufactured a heat exchanger for ships, and conducted basic performance experiments on the performance factors such as capacity, temperature, and pressure, and real-time information
KW - Marine Heat Exchanger;Waste Heat Recycling;Heat Exchange Tube;IoT;Plate Heat Exchanger
DO -
UR -
ER -
SCJang and kweon min-su. (2024). Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers. Journal of Internet of Things and Convergence, 10(5), 207-212.
SCJang and kweon min-su. 2024, "Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers", Journal of Internet of Things and Convergence, vol.10, no.5 pp.207-212.
SCJang, kweon min-su "Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers" Journal of Internet of Things and Convergence 10.5 pp.207-212 (2024) : 207.
SCJang, kweon min-su. Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers. 2024; 10(5), 207-212.
SCJang and kweon min-su. "Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers" Journal of Internet of Things and Convergence 10, no.5 (2024) : 207-212.
SCJang; kweon min-su. Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers. Journal of Internet of Things and Convergence, 10(5), 207-212.
SCJang; kweon min-su. Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers. Journal of Internet of Things and Convergence. 2024; 10(5) 207-212.
SCJang, kweon min-su. Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers. 2024; 10(5), 207-212.
SCJang and kweon min-su. "Waste Heat Recycling Power Generation with IoT Technology Performance Test of Marine Heat Exchangers" Journal of Internet of Things and Convergence 10, no.5 (2024) : 207-212.
