Hydrogen refueling station compression and storage optimization with tube-trailer deliveries

International Journal of Hydrogen Energy

Volumn 39, Issue 33, 2014, Pages 19169-19181

  Reddi, Krishna ^a   Elgowainy, Amgad ^a   Sutherland, Erika ^b  

^a ARGONNE NATIONAL LABORATORY   (United States)

^b U S DEPARTMENT OF ENERGY   (United States)

Author keywords

Compression; Fuel cell electric vehicles; Hydrogen refueling station; Simulation model; Storage; Tube trailer

Indexed keywords

BUFFER STORAGE; COMPACTION; ENERGY STORAGE; HYDROGEN STORAGE; INVESTMENTS; TUBES (COMPONENTS); VEHICLES;

ARGONNE NATIONAL LABORATORY; EQUIPMENT UTILIZATION; FUEL CELL ELECTRIC VEHICLE; HYDROGEN REFUELING STATIONS; OPERATION STRATEGY; SIMULATION MODEL; STORAGE OPTIMIZATION; STORAGE REQUIREMENTS;

COST REDUCTION;

EID: 84908240693     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2014.09.099     Document Type: Article

References (36)

1. Argonne National Laboratory, National Renewable Energy Laboratory, and Pacific Northwest National Laboratory Hydrogen delivery scenario analysis model 2.3 ed. 2010 Fuel Cell Technology Office, DOE https://apps1.hydrogen.energy.gov/cfm/h2a-active-folder/h2a-delivery/05D-H2A-Current-(2010)-Delivery-Scenario-Analysis-Model-Version-2.3.xls
2. D. Baldwin, and N. Newhouse 2013 DOE hydrogen program review: development of high pressure hydrogen storage tank for storage and gaseous truck delivery 05/15/2013 Available: http://www.hydrogen.energy.gov/pdfs/review13/pd021-baldwin-2013-o.pdf [01/27/2014]
3. K. Bonhoff, T. Herbert, and H. Butsch 50 hydrogen refueling stations in Germany within the Frame of the national innovation programme hydrogen and fuel cell technology 2012 Available: http://www.oecd.org/futures/50%20Hydrogen%20Refueling%20Stations%20in%20Germany%20.pdf [accessed 21.01.14]
4. California Air Resources Board Attachment B-3, final regulation order, zero emission vehicle regulation: 2018 and subsequent model years, title 13 2012 California Code of Regulations Available: http://www.arb.ca.gov/msprog/zevprog/2011zevreg/attachb3.pdf [accessed 21.01.14]
5. California Fuel Cell Partnership A California road map 2012 Available: http://cafcp.org/carsandbuses/caroadmap [accessed 21.01.4]
6. D.G. Casey, B.W. Janak, and K.A. Deboer Variable switch point for a cascade storage system for gaseous hydrogen US 20090194190A1 edition, Texas, USA 2009
7. D.G. Casey, J.M. Rovner, R.M. Roberts, and C.L. Krause Method for calculating hydrogen temperature during vehicle fueling US007647094B1 edition, Texas, USA 2010
8. T. Chen Hydrogen delivery infrastructure options analysis 2008 Nexant Inc
9. J.A. Conner, and V.I. Manousiouthakis Global optimality properties of total annualized and operating cost problems for compressor sequences AIChE J 2014 10.1002/aic.14580
10. A. Delorme, A. Rousseau, P. Sharer, S. Pagerit, and T. Wallner Evolution of hydrogen fueled vehicles compared to conventional vehicles from 2010 to 2045 SAE Technical Paper 2009-01-1008 2009 10.4271/2009-01-1008
11. C.J.B. Dicken, and W. Merida Modeling the transient temperature distribution within a hydrogen cylinder during refueling Numer Heat Transf Part A 53 2008 1
12. C.J.B. Dicken, and W. Merida Measured effects of filling time and initial mass on the temperature distribution within a hydrogen Cylinder during refueling J Power Sources 165 2007 324
13. DOE Energy department launches public-private partnership to deploy hydrogen infrastructure 2013 May 13, available: http://energy.gov/articles/energy-department-launches-public-private-partnership-deploy-hydrogen-infrastructure [accessed 21.01.14]
14. DOE Fuel Cell Technologies Office (FCTO) Technical plan: delivery, fuel cell technologies office multi-year research, development, and demonstration plan 2013 3.2-1
15. DOE Fuel Cell Technologies Office (FCTO) Technical plan: technology validation, the fuel cell technologies office multi-year research, development, and demonstration (MYRD&D) plan 2012 3.6-1
16. A. Elgowainy, K. Reddi, M. Mintz, and D. Brown 2013 DOE hydrogen program review: hydrogen delivery infrastructure analysis 2012 May 5, available at: http://www.hydrogen.energy.gov/pdfs/review13/pd014-mintz-2013-o.pdf [accessed 21.01.14]
17. A. Elgowainy, and M. Wang Well-to-wheel analysis of sustainable vehicle fuels R.A. Meyers, Encyclopedia of sustainability, science and technology 2011 Springer
18. Energy Information Administration (EIA) Annual energy outlook 2013 with projections to 2040 2013 [Washington, DC]
19. M. Farzaneh-Gord, M. Deymi-Dashtebayaz, and H.R. Rahbari Effects of storage types and conditions on compressed hydrogen fueling stations performance Int J Hydrogen Energy 37 2012 3500
20. M.C. Galassi, D. Baraldi, B.A. Iborra, and P. Moretto CFD analysis of fast filling scenarios for 70-MPa hydrogen type IV tanks Int J Hydrogen Energy 37 2012 6886
21. K. Hara Research and development of fuel cells vehicle and hydrogen in Japan 2011 May 17, available at: http://www.hfc2011.com/wp-content/uploads/2011/07/HFC2011-Japan.pdf [accessed 21.013.14]
22. R. Harty, S. Mathison, and N. Gupta Improving hydrogen tank refueling performance through the use of an advanced fueling algorithm - the MC method Proceedings of the national hydrogen association conference, May 4th 2010 2010
23. R. Immel, and A. Mark-Gardner Development and validation of a numerical Thermal simulation model for compressed hydrogen gas storage tanks SAE Int J Engines 4 1 2011 1850
24. Japan Hydrogen & Fuel Cell (JHFC), undated, "JHFC Demonstration Project," available at: http://www.jari.or.jp/Portals/0/jhfc/e/jhfc/index.html, [accessed 21.01.14].
25. F. Joseck, and J. Ward Cradle to grave lifecycle analysis of vehicle and fuel pathways 2014 DOE Hydrogen and Fuel Cells Program Record, Record # 14006, March 21, available at: http://www.hydrogen.energy.gov/pdfs/14006-cradle-to-grave-analysis.pdf [accessed 06.08.14]
26. Y. Liu, Y. Zhao, L. Zaho, H. Chen, L. Zhang, and H. Zhao Experimental studies on temperature rise within a hydrogen cylinder during refueling Int J Hydrogen Energy 35 2010 2627
27. M. Mintz, A. Elgowainy, and M. Gardiner Rethinking hydrogen fueling: insights from delivery modeling J Transp Res Board 2139 2009 46
28. M. Monde, P. Woodfield, T. Takano, and M. Kosaka Estimation of temperature change in practical hydrogen pressure tanks being filled at high pressures of 35 and 70 MPa Int J Hydrogen Energy 37 2012 5723
29. "2017-2025 CAFE GHG Supplemental rules". NHTSA. Retrieved 28 August 2012.
30. E. Rothuizen, W. Merida, M. Rokni, and M. Wistoft-Ibsen Optimization of hydrogen vehicle refueling via dynamic simulation Int J Hydrogen Energy 38 2013 4221
31. Society of Automotive Engineers (SAE) SAE international surface vehicle technical information report: fueling protocols for light duty gaseous hydrogen surface vehicles 2010 SAE International SAE J2601
32. P. Thomas Simulation of industrial processes for control engineers [chapter 6] 1st ed. Steady-state compressible flow 1999 Butterworth Heinemann
33. Toyota Japanese companies eye smooth domestic launch of FCVs 2011 January 13. available at: http://www2.toyota.co.jp/en/news/11/01/0113.html [accessed 22.01.14]
34. 2-mobility - toward commercialization of fuel cell vehicles 2010 available at: http://www.hydrogen.energy.gov/pdfs/4-williamson-0610.pdf [accessed 21.01.14]
35. J.C. Yang A thermodynamic analysis of refueling of a hydrogen tank Int J Hydrogen Energy 34 2009 6712
36. J. Zheng, J. Ye, J. Yang, P. Tang, L. Zhao, and M. Kern An optimized control method for a high utilization ratio and fast filling speed in hydrogen refueling stations Int J Hydrogen Energy 35 2010 3011