바로가기메뉴

본문 바로가기 주메뉴 바로가기

ACOMS+ 및 학술지 리포지터리 설명회

  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

IoT 마이크로 보일러에 대한 기초 연구

Basic Study on the IoT Micro Boiler

한국사물인터넷학회논문지 / Journal of The Korea Internet of Things Society, (P)2466-0078;
2022, v.8 no.1, pp.23-29
https://doi.org/https://doi.org/10.20465/kiots.2022.8.1.023
장성철 (한국폴리텍대학 충주캠퍼스)
  • 다운로드 수
  • 조회수

초록

본 연구의 개발대상 제품은 선박 및 발전용 EGB(Exhaust Gas Boiler-폐열보일러) 종류로써 디젤 엔진, 가스엔진, 가스 터빈 등에서 나오는 배기 가스의 여열을 이용하여 물을 가열하여 고온· 고압의 증기나 온수를 발생시키는열회수 장치이다. 발생된 증기나 온수는 선박의 선실 난방 및 온수 시설이나 HFO Heating, 터빈 구동에 필요한 동력원으로 사용된다. 폐열보일러의 원리는 여열을 가진 고온의 배기 가스가 보일러의 Tube를 통과하면서 물을 데우는 역할을 한다. 데워진 물은 스팀 형태로 선실이나 터빈장치로 보내어져 사용하게 되는 구조이다. 본 연구에서는 EGB의 열전달 부품인 관형 튜브를 Plate Tube로 대체하여 열전달 표면을 늘려 효율을 극대화하는데 목표가 있다.

keywords
Micro Boiler, Exhaust Gas Boiler, Turbine, Heat Transfer, 마이크로 보일러, 폐열보일러, 터빈, 열전달

Abstract

The product to be developed in this study is a heat recovery device which generates steam or hot water at high temperature and high pressure by heating water using exhaust gas from diesel engine, gas engine, gas turbine, etc. as an exhaust gas boiler off heat boiler(EGB) type for ship and power generation. The steam vapor or the created warm water is used as the power source required for the steerage heating and hot water facility or the HFO heating of the ship, and the turbine drive. The principle of waste heat boilers serves to heat water as high temperature exhaust gas with heat pass through the tube of the boiler. The heated water is a structure that is sent to a cabin or turbine device in the form of steam. In this study, the objective of this study is to maximize the efficiency by increasing the heat transfer surface by replacing the tube which is the heat transfer part of EGB with the plate tube.

keywords
Micro Boiler, Exhaust Gas Boiler, Turbine, Heat Transfer, 마이크로 보일러, 폐열보일러, 터빈, 열전달

참고문헌

1.

Rota, R., Antos, D., Zanoelo, E. F., and Morbidelli, M.,“Experimental and modeling analysis of the NOx OUT process”, Chem. Eng. Sci., 57, pp.27-38, 2002.

2.

Schaber, P. M., Colson, J., Higgins, S., Dietz, E., Thielen, D., Anspacj, B., and Brauer, J., “Study of the urea thermal decomposition (pyrolysis) reaction and importance to cyanuric acid production”, Am. Lab., pp.13-21, 1999.

3.

Jang, S. C., Han, S. M., Lee, C. K., & Jung H. C., “FSI Analysis of Pneumatic Actuator”, KSPSE Spring Conference, pp.81-83, 2016.

4.

Menter, F. and Esch, T., "Elements of Industrial Heat Transfer Predictions," 16th Bazilian Congress of Mechanical Engineering (COBEM), Uberlandia, Brazil, 2001.

5.

D. C. Wilcox, "Turbulence modeling for CFD, DCW industries", Inc. La Canada, CA, 1993.

6.

Launder, B. E. and Spalding, D. B., The numerical computational of turbulence flows", Computational methods in applied mechanics and engineering, Vol.3, pp.269-289, 1972.

7.

K. Keller, "Low cost, high performance, high volume heatsinks", in Proc.Electronics Manufacturing Technology Symposium, pp. 113–118, 1998.

8.

S. Narasimhan and J. Majdalani, "Characterization of compact heat sink models in natural convection", IEEE Trans. Components and Packaging Technologies, Vol.25, Issue 1, pp.78-86, March 2002.

9.

S. P. Watson and B. G. Sammakia, "The thermal performance of a chip scale package array with simple block and plate heat sinks", in Proc. Thermal and Thermomechanical Phenomena in Electronic Systems Conf, pp 276284, 2002.

10.

Jang, S. C., Han, S. M., Lee, C. K., & Jung H. C., “FSI Analysis of Pneumatic Actuator”, KSPSE Spring Conference, pp.81-83, 2016.

11.

Jang, S. C., Cho, H. D., and Kim, N. K., “Development of Gear Type Vane Damper Change Link Type in FD Fan, ”KSMTE, Vol.13, No.1, pp.104~109, 2000.

12.

Jang, S. C., Han, S. H., and Kim, J. W., , "A Study on Performance Improvement of Gear Type Vane Damper in FD Fan(Productivity Increases &Construction Improvement)" KSMTE J. Vol.19, No.1, pp.134~139, 2010.

13.

Yi, C. S., Hong, J. K., Suh, J. S., Shin, Y. I. and Park, Y. S., 2009, "Effect of CutoffAngle on the Flow Characteristic of Turbo-Fan", Conference Proceedings of KSME Spring Annual Meeting(KSME09TE068), pp.311~318, 2015.

14.

P. J. Witt, C. G. Solnordal, L. J. Mittoni, S. Finn, J. Pluta, "Optimising the Design of Fume Extraction Hoods Using a Combination of Engineering and CFD Modelling", Applied Mathematical Modelling, Vol.30, No.11, pp.1167-1179, 2006,

15.

Choong Hyun Kim, Hyo Sok Ahn and Tae Hyong Chong, 2003, "On a Method for the Durability Enhancement of Plastic Spur Gear Using Finite Element Analysis", Transactions of the KSME A, Vol.27, No.2, pp.223-230, 2006.

한국사물인터넷학회논문지