WHAT WE DO

HEXAR LAB



Hydrogen Energy X Advanced Research Laboratory (HEXAR Lab) is where the most advanced technologies on liquid hydrogen and its applications are being researched and experimented in the world. The middle ‘X’ denotes the extreme, extensive, and extraordinary experiments that represent our commitment and everlasting endeavour toward the future of liquid hydrogen technology.

The HEXAR Lab Major R&D topics being performed in the HEXAR Lab. is the following.

Complete commercial design, fabrication, and consulting package for hydrogen liquefaction, transfer, and storage management technology

Ultralight and rigid liquid hydrogen tank for Unmanned/Manned Aerial Vehicle, Unmanned/Manned Subwater Vehicle, Passenger Drone, and fuel cell powered industry applications

The next generation hydrogen charging station - design, production, installation and consulting

The next generation densified propellant management for spaceport facility and orbiters

The 2nd generation low-cost, easy-to-apply hydrogen detection pigments

Highly efficient, low-cost H2S mitigation and micro particulate filter system

Innovative Pistonless Gas Compressor, in particular, for hydrogen fuel cell vehicle charging station

Thermo-physical system analysis for Spaceflight Orbiter and Spaceport Ground Operations facility

Zero boil-off long term liquid/gas propellant (liquid oxygen, liquid hydrogen) management for fuel cell and space application

Rapid pressure/temperature control management of cryogenic fluid for ground/space fuel cell application

GM cryocooler, pulse tube cooler for oxygen, neon, nitrogen, hydrogen, helium liquefaction, infrared detector cooling, and superconductor cooling

All-in-one Cryogenic Treatment System package

General cryogenic engineering design and technical consulting

Members of the HEXAR Lab are all highly motivated, knowledgeable, and world renowned experts in their fields. Yet, the most important thing is that we all are enthusiastic about the one dream - making the better future together. HEXAR Lab is open for whoever share the same philanthropic idea.
Are you ready to join us?
 
Dr. Jong Baik successfully designed and tested his 2nd hydrogen liquefier in 2003.
 
FSEC hydrogen liquefier successfully developed and tested in 2003.
 
Dr.Jong Baik received the Russell B. Scott Award, the Best Application Paper, from the International Cryogenic Engineering Conference for the development of the small hydrogen liquefaction system

Selected Publications:

1Baik J.H., Notardonato W. U., Karng S. W., Oh I., “Thermo-physical performance prediction of the KSC Ground Operation Demonstration Unit for liquid hydrogen”, IOP Conf. Series: Materials Science and Engineering, CEC2015, Vol.101 (2016) 012110.
(http://iopscience.iop.org/article/10.1088/1757-899X/101/1/012110/meta)
2N. Garceau, S. Y. Kim, C. M. Lim, M. J. Cho, K. Y. Kim, and J. H. Baik, “Performance test of a 6 L liquid hydrogen fuel tank for unmanned aerial vehicles (UAV),” IOP Conf. Series: Materials Science and Engineering, CEC2015, Vol.101 (2016) 012130.
(http://iopscience.iop.org/article/10.1088/1757-899X/101/1/012130/meta)
3N. Garceau, J. H. Baik., C.M. Lim, S.Y. Kim, I. Oh and S.W. Karng, "Development of a Small Hydrogen Liquefaction System," International Journal of Hydrogen Energy, Vol. 40, No. 35 (2015) pp. 11872-11878.
(http://www.sciencedirect.com/science/article/pii/S0360319915016602)
4J. H. Baik, S. W. Karng, H. Kang, N. Garceau, S. Y. Kim, I.-H. Oh, “Design and operation of a small-scale hydrogen liquefier,” Journal of The Korean Hydrogen and New Energy Society, Vol. 26, No. 2 (2015) pp. 105-113.
(http://scitation.aip.org/content/aip/proceeding/aipcp/10.1063/1.4860864)
5N. Garceau, J. H. Baik., C.M. Lim, S.Y. Kim, I. Oh and S.W. Karng, "Development of a 1 L/hr scale liquid hydrogen system," International Journal of Air-Conditioning and Refrigeration, Vol. 23, No. 1 (2015), 1550009-1-7.
6Muradov, Nazim; Gujar, Amit; Baik, Jong; T-Raissi, Ali, “Production of Fischer-Tropsch hydrocarbons via oxygen-blown gasification of charred pinewood pellets,” Fuel Processing Technology, Vol. 40 (2015) pp. 236-244.
(http://www.sciencedirect.com/science/article/pii/S0378382015301636)
7Baik, J. H.; Notardonato, W.U.; Karng, S. W.; Kim, S. Y.; and Oh, I-H, “Thermo-Fluid Modeling of a Full Scale Liquid Hydrogen Storage System with Integrated Refrigeration,” Cryocoolers (2014), 18, 507-515.
(http://cryocooler.org/proceedings/paper-flies/C18papers/064.pdf)
8Garceau, N.; Baik, J. H.; Kim, S. Y.; Oh, I. H., Karng, S. W., “Development of a small zero-loss hydrogen liquefaction plant,” Cryocoolers (2014), 18, 517-527.
(http://cryocooler.org/proceedings/paper-flies/C18papers/065.pdf)
9Baik, J. H.; Karng, S. W.; Garceau, N.; Jang, Y. H.; Lim, C. M.; Kim, S. Y.; Oh, I. H., “Development of 1 L hr-1 scale hydrogen liquefier using Gifford-McMahon (GM) cryocooler,” Advances in Cryogenic Engineering (2014), 1573, 1357-1364.
(http://aip.scitation.org/doi/pdf/10.1063/1.4860864)
10Gujar, Amit C.; Baik, Jong; Garceau, Nathaniel; Muradov, Nazim; T-Raissi, Ali, “Oxygen-blown gasification of pine charcoal in a top-lit downdraft moving-hearth gasifier,” Fuel (2014), 118, 27-32.
(http://www.sciencedirect.com/science/article/pii/S0016236113009800)
11S. W. Karng, N. Garceau, J. H. Baik, C. M. Lim, S. Y. Kim, and I. Oh, "Development of a 1L/hr scale Liquid Hydrogen System," The 7th Asian Conference on Refrigeration and Air Conditioning, May 18-21, 2014.
(http://www.worldscientific.com/doi/abs/10.1142/S2010132515500091)
12J. Baik, W. Notardonato, S. Karng, S. Kim, and I. Oh, "Thermo-Fluid Modeling of a Full Scale Liquid Hydrogen Storage System with Integrated Refrigeration," International Cryocooler Conference 18, June 9-12, 2014, Syracuse, NY, USA.
(http://cryocooler.org/proceedings/paper-flies/C18papers/064.pdf)
13N. Garceau, S.W. Karng, C.M. Lim, S.Y. Kim, I.H. Oh and J.H. Baik, "Development of a Small Zero-Loss Hydrogen Liquefaction Plant," International Cryocooler Conference 18, June 9-12, 2014, Syracuse, NY, USA.
(http://cryocooler.org/proceedings/paper-flies/C18papers/065.pdf)
14J.H. Baik, W.U. Notardonato, S.W. Karng, S.Y. Kim, and I. Oh, "Thermo-Fluid Modeling of the NASA KSC Ground Operations Demonstration Unit," 20th World Hydrogen Energy Conference, June 15-20th, 2014, Gwangju, Korea.
15N. Garceau, C.M. Lim, S.Y. Kim, I. Oh and J.H. Baik, S.W. Karng, "Development of a Small Hydrogen Liquefaction System," 20th World Hydrogen Energy Conference, June 15-20th, 2014, Gwangju, Korea.
(https://www.researchgate.net/profile/Sarng_Woo_Karng/publication/282633493_Development_of_a_small-scale_hydrogen_liquefaction_system/links/5697bb0308ae34f3cf1f1247.pdf?origin=publication_list)
16S.Y. Kim, Y. Jang, N. Garceau, J,H. Baik, S.W. Karng, I. Oh, "Development Liquified Materials Storage Vessels with Cryogenic Fusion Technologies", The 2nd Workshop, 2013, Converged Research Center for the Liquefied Material Using Magnetic Refrigeration, Jeju, Korea, Feb. 26-27, 2013.
17J.H. Baik, "Thermal Analysis and Design Improvement of the KIST Hydrogen Liquefaction System (HLS)", The 2nd Workshop, 2013, Converged Research Center for the Liquefied Material Using Magnetic Refrigeration, Jeju, Korea, Feb. 26-27, 2013.
18J.H. Baik, "Design of the KIST Liquefier using GM Cryocooler", The 2nd Workshop, 2013, Converged Research Center for the Liquefied Material Using Magnetic Refrigeration, Jeju, Korea, Feb. 26-27, 2013.
19S.Y. Kim, Y. Jang, N. Garceau, J,H. Baik, S.W. Karng, I. Oh, "Hydrogen Liquefaction System and Storage Vessel Design", Self-evaluation Meeting of The 2nd Year of Converged Research Center for the Liquefied Material Using Magnetic Refrigeration, KIST, Korea, May 2, 2013.
20N. Garceau, Y. Jang, J.H. Baik, S.Y. Kim, I. Oh, S.W. Karng, "Fabrication of a Hydrogen Liquefier (150 L)", 2013 Spring Conference The Korean Hydrogen and New Energy Society, Chonbuk National Univ., Korea, May, 9-10, 2013.
21S.W. Karng, J.H. Baik, N. Garceau, Y.H. Jang, C.M. Lim, S.Y. Kim, and I. Oh, "Performance test of a 5 L liquid hydrogen tank", Cryogenic Engineering Conference-International Cryogenic Materials Conference 2013, Anchorage, Alaska, USA, June 17-21, 2013.
(http://www.tandfonline.com.pubs.kist.re.kr/handle/201004/46930)
22J.H. Baik, S.Y. Kim, S.W. Karng, N. Garceau, Y.H. Jang, C.M. Lim, , and I. Oh, "Development of 1 L hr-1 scale hydrogen liquefier using Gifford-McMahon (GM) cryocooler", Cryogenic Engineering Conference-International Cryogenic Materials Conference 2013, Anchorage, Alaska, USA, June 17-21, 2013.
(https://www.researchgate.net/publication/263000165_Development_of_1_L_hr-1_Scale_Hydrogen_Liquefier_Using_Gifford-McMahon_GM_Cryocooler)
23J. H. Baik, S. W. Karng, N. Garceau, Y. H. Jang, C. M. Lim, S. Y. Kim, and I. H. Oh, "Development of a Small-scale Liquid Hydrogen Plant," Korea Hydrogen and Renewable Energy Society, 2013.
(http://www.tandfonline.com.pubs.kist.re.kr/handle/201004/46903)
24S.Y. Kim, H. Seo, H.S. Han, J,H. Baik, S.W. Karng, I. Oh, "Development of Cryogenic Vessel with Hydrogen Permeation Protection and Super Insulation", The 1st Workshop, 2012, Converged Research Center for the Liquefied Material Using Magnetic Refrigeration, Busan, Korea, March, 18-19, 2012.
25H. Seo, H.S. Han, J.H. Baik, S.W. Karng, S.Y. Kim, "Development of Hydrogen Liquefaction System", 2012 Spring Conference The Korean Hydrogen and New Energy Society, KIST, Korea, May. 2-3, 2012.
26S.W. Karng, J.H. Baik, "Thermal Analysis and Design Improvement of the KIST Hydrogen Liquefaction System (HLS)", Kick-off Meeting of The 2nd Year of Converged Research Center for the Liquefied Material Using Magnetic Refrigeration, KIST, Korea, June 20, 2012.
27S.Y. Kim, Y. Jang, N. Garceau, J,H. Baik, S.W. Karng, I. Oh, "Hydrogen Liquefaction System and Storage Vessel Design", The 34th Academy-Research-Industry Research Results Exchange Meeting, KIST Convention Hall, Korea, Dec. 7, 2012.
28S.W. Karng, J.H. Baik, "R&D Status on LH2 Manufacture & Storage in USA", The 2nd Waseda-KIST Joint Workshop, Japan, Dec. 14, 2012.
29Mohajeri, Nahid; T-Raissi, Ali; Baik, Jong, “TG/DTA of hydrogen reduction kinetics of TiO2 supported PdO chemochromic pigments,” Thermochimica Acta (2011), 518(1-2), 119-122.
(https://www.researchgate.net/publication/251500379_TGDTA_of_hydrogen_reduction_kinetics_of_TiO_2_supported_PdO_chemochromic_pigments)
30J. Baik, “Zero-Boil-Off Liquid Hydrogen Tanks,” NASA Technical Reports Server (NTRS) NASA/CR 2009-215441, NASA Glenn Research Center, Feb 2009
(http://www.nttc.edu/sbipp/technologyportfolios/portfolios/ISS-Propellant_T-S/Archive%5C20090021325.pdf)
31Choi, Pyoungho; Mittal, Vishal; Baik, Jong; Slattery, Darlene K.; Bonville, Leonard J.; Kunz, H. Russell; Fenton, James M., “Self-humidification of PEM fuel cells by internal humidity exchanger,” Abstracts of Papers, 234th ACS National Meeting, Boston, MA, United States, August 19-23, 2007 (2007), FUEL-049.
(http://oasys2.confex.com/acs/234nm/techprogram/P1119763.HTM)
32Agarwal, Rohit; Mohajeri, Nahid; Slattery, Darlene K.; Baik, Jong; Fenton, James M., “Effect of relative humidity on the stabilized Nafion/phosphotungstic acid composite membranes during fabrication process,” Abstracts of Papers, 234th ACS National Meeting, Boston, MA, United States, August 19-23, 2007 (2007), FUEL-043.
(http://oasys2.confex.com/acs/234nm/techprogram/P1119905.HTM)
33Choi, Pyoungho; Mittal, Vishal; Baik, Jong; Slattery, Darlene; Bonville, Leonard; Kunz, Russell H.; Fenton, James, “Self humidification of PEM fuel cells by internal humidity exchanger,” American Chemical Society, Division of Fuel Chemistry (2007), 52(2), 334-335.
(http://oasys2.confex.com/acs/234nm/techprogram/P1119763.HTM)
34Agarwal, R.; Mohajeri, N.; Slattery, D. K.; Baik, J.; Fenton, James M., “Effect of relative humidity on the stabilized nafion/phosphotungstic acid composite membranes during fabrication process,” American Chemical Society, Division of Fuel Chemistry (2007), 52(2), 321-322.
(http://oasys2.confex.com/acs/234nm/techprogram/P1119905.HTM)
35Elbaccouch, Mohamed M.; Ramasamy, Karthikeyan K.; Baik, Jong; T-Raissi, Ali, “Aspen Plus process design for the liquid hydrogen production by steam reforming of used automotive lubricating oil,” AIChE Spring National Meeting, Conference Proceedings, Orlando, FL, United States, Apr. 23-27, 2006 (2006).
(https://aiche.confex.com/aiche/s06/techprogram/P43453.HTM)
36Mohajeri, Nahid; Adebiyi, Olawale; Baik, Jong; Bokerman, Gary; T-Raissi, Ali, “An ammonia-borane based hydrogen storage system for portable applications,” 232nd ACS National Meeting, San Francisco, CA, United States, Sept. 10-14, 2006 (2006), FUEL-103.
(http://oasys2.confex.com/acs/232nm/techprogram/P1009124.HTM)
37Mohajeri, Nahid; Adebiyi, Olawale; Baik, Jong; Bokerman, Gary; T-Raissi, Ali, “An ammonia-borane based hydrogen storage system for portable applications,” American Chemical Society, Division of Fuel Chemistry (2006), 51(2), 520-521.
(http://oasys2.confex.com/acs/232nm/techprogram/P1009124.HTM)
38Baik, J. H.; Notardonato, W. U., “Initial test results of laboratory scale hydrogen liquefaction and densification system,” Advances in Cryogenic Engineering (2006), 823, 1530-1537.
(http://aip.scitation.org/doi/abs/10.1063/1.2202577?journalCode=apc)
39Notardonato, W. U.; Baik, J. H.; McIntosh, G. E., “Operational testing of densified hydrogen using G-M refrigeration,”  Advances in Cryogenic Engineering (2004), 710, 64-71.
(http://aip.scitation.org/doi/abs/10.1063/1.1774668)
40Baik, J. H.; Nellis, G. F.; Pfotenhauer, J. M., “Analysis of loss mechanisms in G-M type pulse tube refrigerators,” Advances in Cryogenic Engineering (2004), 710, 1451-1458.
(https://www.researchgate.net/publication/253322093_Analysis_of_Loss_Mechanisms_in_GM_Type_Pulse_Tube_Refrigerators)
41Baik, Jong H.; T-Raissi, Ali, “R&D processes for increasing density of cryogenic propellants at FSEC,” Cryogenics (2004), 44(6-8), 451-458.
(http://www.sciencedirect.com/science/article/pii/S0011227504000414)
42Baik, J. H.; Pfotenhauer, J. M., “Analysis of the shuttle heat loss mechanism in GM type pulse tube refrigerators,” Advances in Cryogenic Engineering (2002), 613, 926-933.
(https://www.researchgate.net/profile/John_Pfotenhauer/publication/252430867_Analysis_of_the_shuttle_heat_loss_mechanism_in_GM_type_pulse_tube_refrigerators/links/5502d2af0cf231de076f9b97.pdf)
43Chang, H. M.; Baik, J. H., “An exact expression for shuttle heat transfer,” Advances in Cryogenic Engineering (1996), 41(Pt. B), 1535-1542.
(http://cool.hongik.ac.kr/users/hicel/download/1-3.pdf)
44Baik, Jong Hoon; Chang, Ho-Myung, “An exact solution for shuttle heat transfer,” Cryogenics (1995), 35(1), 9-13.
(http://cool.hongik.ac.kr/users/hicel/download/1-2.pdf)
45J. H. Baik, H. M. Chang, W. Notardonato "Two-Stage Refrigeration for Subcooling Liquid Hydrogen and Oxygen as Densified Propellants," Cryocoolers, Vol. 13, pp. 711-718, 2005.
(http://manager.campushomepage.com/users/hicel/download/1-21.pdf)
46수소액화용 직접냉각장치의 설계 및 성능시험, J. H. Baik, H. M. Chang,“Design and Performance Test of a Direct Cooling Equipment for Hydrogen Liquefaction”
(http://cool.hongik.ac.kr/users/hicel/download/2-8.pdf)
47미국 NASA 및 DOE의 액체수소에 대한 연구 백종훈 장호명 (초전도와 저온공학, Vol.7 No.1, [2005])
(http://manager.campushomepage.com/users/hicel/download/05_kiasc_magazine-1.pdf)
48J. H. Baik, H. M. Chang,"왕복동기기에서의 셔틀열전달," “Shuttle Heat Transfer in Reciprocating Machinery” (대한기계학회 춘추학술대회, Vol.- No.-, [1994])
(http://www.dbpia.co.kr/Journal/ArticleDetail/NODE00330829)
49 J. H. Baik, H. M. Chang, “Performance evaluation of an ortho - para H2 conversion equipment”, (한국 수소 및 신에너지학회 학술대회, Vol.1997 No.2, [1997])
(http://www.riss.kr/link?id=A75450870)
50 수소액화 및 극저온 저장기술 백종훈 김서영 (기계저널, Vol.53 No.4, [2013])
(http://www.riss.kr/link?id=A99719063)
51 압축기 / 팽창기에서 열전달을 고려한 Stirling 냉동기의 2차 해석 = Stirling Cycle Analysis including Heat Transfer in Compressor / Expander 백종훈 장호명 (대한설비공학회 학술발표대회논문집, Vol.1995 No.-, [1995])
(http://cool.hongik.ac.kr/users/hicel/download/4-10.pdf)
52 고온초전도복합재 실험용 저온조의 설계 = Design of cryostat for testing high - Tc superconducting composites 백종훈 이훈 김영권 장호명 홍계원 이호진 (대한설비공학회 학술발표대회논문집, Vol.1995 No.-, [1995])
(http://cool.hongik.ac.kr/users/hicel/download/2-5.pdf)
53 [세계의 연구소]Florida Solar Energy Center(FSEC), University of Center Florida 백종훈 (기계저널, Vol.43 No.4, [2003])
(http://www.dbpia.co.kr/Journal/ArticleDetail/NODE00529259)
54 학술발표 / 수소액화시스템용 Joule - Thomson 냉각기의 성능실험 = Performance test of Joule - Thomson Cryocooler for H2 liquefaction system 백종훈(J . H . Baik) 강병하(B . H . Kang) 홍성제(S . J . Hong) 장호명(H . M . Chang) (한국수소및신에너지학회 학술대회 초록집, Vol.1999 No.2, [1999])
(http://www.papersearch.net/thesis/article.asp?KEY=1441654)
55 직접냉각에 의한 수소액화장치의 성능실험 = Performance experiment of a hydrogen liquefaction equipment by direct cooling 백종훈(J. H. Baik) 강병하(B. H. Kang) 장호명(H. M. Chang) (설비공학 논문집, Vol.9 No.3, [1997])[KCI등재]
(http://cool.hongik.ac.kr/users/hicel/download/2-20.pdf)
56 Ortho - para 수소변환장치의 설계 및 성능평가 = Design and performance evaluation of an ortho-para H2 conversion equipment 백종훈(J . H . Baik) 강병하(B . H . Kang) (한국수소및신에너지학회 학술대회 초록집, Vol.1998 No.1, [1998])
(http://www.papersearch.net/thesis/article.asp?KEY=936067)
57 소형 수소액화기 설계 및 운전에 관한 연구 = Design and Operation of a Small-Scale Hydrogen Liquefier 백종훈 ( Jong Hoon Baik ) 강상우 ( Sarng Woo Karng ) 강형묵 ( Hyung Mook Kang ) 나다니엘갈소 ( Nathaniel Garceau ) 김서영 ( Seo Young Kim ) 오인환 ( In Hwan Oh ) (한국수소 및 신에너지학회논문집, Vol.26 No.2, [2015])[KCI등재]
(http://www.papersearch.net/thesis/article.asp?KEY=3317350)
58 헬륨의 비이상기체 거동에 따른 VM열펌프의 손실 = Thermal Losses Due to Non - ideal Gas Behavior of Helium in VM Heat Pump 백종훈(J. H. Baik) 장호명(H. M. Chang) (설비공학 논문집, Vol.8 No.2, [1996])[KCI등재]
(http://cool.hongik.ac.kr/users/hicel/download/2-7.pdf)
59 수소 Joule - Thomson 냉동기의 성능실험 = Performance test of Joule - Thomson cryocooler with H₂ gas 백종훈(J.H.Baik) 강병하(B.H.Kang) 홍성제(S.J.Hong) 장호명(H.-M.Chang) (설비공학 논문집, Vol.11 No.4, [1999])[KCI등재]
(http://cool.hongik.ac.kr/users/hicel/download/2-20.pdf)
60 실제기체의 물성을 이용한 Stirling 냉동기 단열해석 = Adiabatic Analysis of Stirling Refrigerator with Real Gas Properties 백종훈(J. H. Baik) 장호명(H. M. Chang) (설비공학 논문집, Vol.7 No.1, [1995])[KCI등재]
(http://cool.hongik.ac.kr/users/hicel/download/2-5.pdf)
61 터보팽창기를 이용한 2단 팽창 Claude냉동사이클 해석 = Cycle Analysis of 2-Stage Expansion Claude Refrigerator with Turboexpanders 백종훈(J. H. Baek) 장호명(H. M. Chang) (설비공학 논문집, Vol.6 No.2, [1994])[KCI등재]
(http://cool.hongik.ac.kr/users/hicel/download/2-4.pdf)
62 Ortho - para 수소변환장치의 설계 및 성능평가 = Design and performance evaluation of ortho-para H2 conversion equipment 강병하 백종훈 (한국수소 및 신에너지학회논문집, Vol.9 No.3, [1998])[KCI등재]
(http://www.papersearch.net/thesis/article.asp?KEY=936045)
63 수소액화 시스템용 이중관 열교환기의 유용도 측정 = Effectiveness Measurement of a Double - Tube Heat Exchanger for a Hydrogen Liquefaction System 강병하 백종훈 최영돈 최항집 (한국수소 및 신에너지학회논문집, Vol.10 No.1, [1999])[KCI등재]
(http://www.papersearch.net/thesis/article.asp?KEY=545238)
64 VM 열펌프의 주요손실 = Important Losses in VM Heat Pump 최연석(Y. S. Choi) 백종훈(J. H. Baik) 장호명(H.-M. Chang) 정은수(E. S. Jeong) (대한설비공학회 강연회 및 기타간행물, Vol.- No.-, [1994])
(http://cool.hongik.ac.kr/users/hicel/download/4-5.pdf)
65 학술발표 / Ortho - para 수소변환을 고려한 수소액화장치의 성능실험 = Performance experiment of a hydrogen liquefaction equipment considering ortho - para hydrogen conversion 최항집(H . J . Choi) 백종훈(J . H . Baik) 강병하(B . H . Kang) 최영돈(Y . D . Choi) (한국수소및신에너지학회 학술대회 초록집, Vol.1999 No.2, [1999])
(http://www.papersearch.net/thesis/article.asp?KEY=1441649)
66 학술논문 / 수소 액화용 이중관 열교환기의 유용도 측정 = A Measurement of The Effectiveness of Double - Tube Heat Exchanger for Hydrogen Liquefaction 최항집(H . J . Choi) 백종훈(J . H . Baik) 강병하(B . H . Kang) 최영돈(Y . D . Choi) (한국수소및신에너지학회 학술대회 초록집, Vol.1998 No.1, [1998])
(http://www.papersearch.net/thesis/article.asp?KEY=936079)
67 강상우(Sarng Woo Karng), 나다니엘가르소(Nathaniel Garceau), 임창무(Chang Mu Lim), 백종훈 (Jong Hoon Baik), 김서영(Seo Young Kim), 오인환(In Hwan Oh) , “5 L급 액체수소 저장용기의 성능특성 연구, Performance of a 5 L Liquid Hydrogen Storage Vessel,” 한국수소 및 신에너지학회논문집, Vol.26 No.3 (2015))[KCI등재]
(http://www.papersearch.net/thesis/article.asp?KEY=3335500)
68 저온 수소연료 주입을 통한 연료전지의 운전 특성 = Operation Of Fuel Cell Systems at low Temperature 조민제(Minje Cho) 김관엽(Kwanyeop Kim) 나타니엘 갈소(Nathaniel Garceau) 백종훈(Jonghoon Baik) 김서영(Seoyoung Kim) (한국추진공학회 학술대회논문집, Vol.2015 No.5, [2015])
(http://www.dbpia.co.kr/Journal/ArticleDetail/NODE06361807)
69 백종훈, 장호명, "발사체 추진연료용 액체수소와 액체산소의 고밀도화를 위한 2단 역 Brayton 냉동시스템의 열역학적 사이클 해석," 대한설비공학회 냉동부문 학술논문 발표 및 강연회 논문집, pp. 131-134, 2004.
(http://cool.hongik.ac.kr/users/hicel/download/4-38.pdf)
70 Jong Hoon Baik and Ho-Myung Chang, "Thermal Loss due to Non-Ideal Gas Behavior of Helium in VM Heat Pump," Journal of Air-Conditioning and Refrigeration, Vol. 5, pp. 92-100, 1997.
(http://cool.hongik.ac.kr/users/hicel/download/2-15.pdf)