An integrated energy storage system based on hydrogen storage: Process configuration and case studies with wind power

Energy

Volumn 66, Issue , 2014, Pages 332-341

  Gao, Dan ^a   Jiang, Dongfang ^a   Liu, Pei ^b   Li, Zheng ^b   Hu, Sangao ^a   Xu, Hong ^a  

^a NORTH CHINA ELECTRIC POWER UNIVERSITY   (China)

^b TSINGHUA UNIVERSITY   (China)

Author keywords

Energy efficiency; Hydrogen oxygen combined cycle; Integrated energy storage system; Wind power

Indexed keywords

ELECTRIC POWER GENERATION; HYDROGEN; HYDROGEN STORAGE; INTEGRATED CONTROL; OXYGEN; WIND POWER; ELECTRIC ENERGY STORAGE; ELECTRIC POWER TRANSMISSION NETWORKS; STORAGE (MATERIALS);

COMBINED CYCLE; ECONOMIC COMPARISONS; GEOLOGICAL CONDITIONS; INTEGRATED ENERGY STORAGES; INTEGRATED SYSTEMS; PROCESS CONFIGURATION; RENEWABLE POWER; RENEWABLE POWER GENERATION;

ENERGY EFFICIENCY;

ENERGY EFFICIENCY; HYDROGEN; INTEGRATED APPROACH; OXYGEN; POWER GENERATION; POWER PLANT; RENEWABLE RESOURCE; WIND POWER; ELECTRICITY GENERATION; GEOLOGICAL SURVEY;

EID: 84896396943     PISSN: 03605442     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.energy.2014.01.095     Document Type: Article

References (33)

1. Kiviluoma J., Meibom P. Influence of wind power, plug-in electric vehicles, and heat storages on power system investments. Energy 2010, 35:1244-1255.
2. Kaldellis J.K., Zafirakis D. Optimum energy storage techniques for the improvement of renewable energy sources-based electricity generation economic efficiency. Energy 2007, 32:2295-2305.
3. Cavallo A.J. Energy storage technologies for utility scale intermittent renewable energy systems. Trans ASME J Sol Energy Eng 2001, 123:387-389.
4. Zhou L., Huang Y., Guo K., Feng Y. Asurvey of energy storage technology for micro grid. Dianli Xitong Baohu yu Kongzhi/Power Syst Protect Control 2011, 39:147-152.
5. Jubeh N.M., Najjar Y.S.H. Power augmentation with CAES (compressed air energy storage) by air injection or supercharging makes environment greener. Energy 2012, 38:228-235.
6. Ibrahim H., Younès R., Basbous T., Ilinca A., Dimitrova M. Optimization of diesel engine performances for a hybrid wind-diesel system with compressed air energy storage. Energy 2011, 36:3079-3091.
7. Cheng H., Xu Z. Energy storage for use with distribution power generation. High Voltage Apparat 2003, 39:53-56.
8. Zhu J., Qiu M., Wei B., Zhang H., Lai X., Yuan W. Design, dynamic simulation and construction of a hybrid HTS SMES (high-temperature superconducting magnetic energy storage systems) for Chinese power grid. Energy 2013, 51:184-192.
9. Zhang W.-L., Qiu M., Lai X.-K. Application of energy storage technologies in power grids. Power Syst Technol 2008, 32:1-9.
10. Trianni A., Cagno E., Worrell E., Pugliese G. Empirical investigation of energy efficiency barriers in Italian manufacturing SMEs. Energy 2013, 49:444-458.
11. Lu C.-F., Liu C.-C., Wu C.-J. Dynamic modelling of battery energy storage system and application to power system stability. IEEE Proc Generat Transm Distribut 1995, 142:429-435.
12. Chan C.-C., Wong Y.-S. Electric vehicles charge forward. IEEE Power Energy Mag 2004, 2:24-33.
13. Ferreira H.L., Garde R., Fulli G., Kling W., Lopes J.P. Characterisation of electrical energy storage technologies. Energy 2013, 53:288-298.
14. Marino C., Nucara A., Pietrafesa M., Pudano A. An energy self-sufficient public building using integrated renewable sources and hydrogen storage. Energy 2013, 57:95-105.
15. Carton J.G., Olabi A.G. Wind/hydrogen hybrid systems: opportunity for Ireland's wind resource to provide consistent sustainable energy supply. Energy 2010, 35:4536-4544.
16. Carton J.G., Lawlor V., Olabi A.G., Hochenauer C., Zauner G. Water droplet accumulation and motion in PEM (Proton Exchange Membrane) fuel cell mini-channels. Energy 2012, 39:63-73.
17. Chutichai B., Authayanun S., Assabumrungrat S., Arpornwichanop A. Performance analysis of an integrated biomass gasification and PEMFC (proton exchange membrane fuel cell) system: hydrogen and power generation. Energy 2013, 55:98-106.
18. Doherty W., Reynolds A., Kennedy D. Computer simulation of a biomass gasification-solid oxide fuel cell power system using Aspen Plus. Energy 2010, 35:4545-4555.
19. Bose P.K., Deb M., Banerjee R., Majumder A. Multi objective optimization of performance parameters of a single cylinder diesel engine running with hydrogen using a Taguchi-fuzzy based approach. Energy 2013, 63:375-386.
20. Santoli L., Lo Basso G., Bruschi D. Energy characterization of CHP (combined heat and power) fuelled with hydrogen enriched natural gas blends. Energy 2013, 60:13-22.
21. Niknam T., Golestaneh F., Shafiei M. Probabilistic energy management of a renewable microgrid with hydrogen storage using self-adaptive charge search algorithm. Energy 2013, 49:252-267.
22. Gutierrez-Martin F., Confente D., Guerra I. Management of variable electricity loads in wind - hydrogen systems: the case of a Spanish wind farm. Int J Hydrogen Energy 2010, 35:7329-7336.
23. Sherif S.A., Barbir F., Veziroglu T.N. Wind energy and the hydrogen economy-review of the technology. Solar Energy 2005, 78:647-660.
24. Zheng J., Liu X., Xu P., Liu P., Zhao Y., Yang J. Development of high pressure gaseous hydrogen storage technologies. Int J Hydrogen Energy 2012, 37:1048-1057.
25. Hua T.-Q., Ahluwalia R.K., Peng J.K., Kromer M., Lasher S., McKenney K., et al. Technical assessment of compressed hydrogen storage tank systems for automotive applications. Int J Hydrogen Energy 2011, 36:3037-3049.
26. Yu S., Mays T.J., Dunn R.W. Anew methodology for designing hydrogen energy storage in wind power systems to balance generation and demand. 2009 International conference on sustainable power generation and supply SUPERGEN 2009, 6-7 April 2009 2009, 6. IEEE, Piscataway, NJ, USA.
27. Moschetto A., Giaquinta G., Tina G. Modelling of integrated renewable energy systems supported by hydrogen storage. Power Tech 2007, 1-5 July 2007 2008, 449-451. IEEE, Piscataway, NJ, USA.
28. Kelly M., Briggs A. Methods of hydrogen storage for standby power units. INTELEC 2002-International Telecommunications Energy Conference, 29 Sept-3 Oct 2002 2002, 331-337. IEEE, Piscataway, NJ, USA.
29. 2 cycles: thermodynamic potentialities and limits. JEng Gas Turbines Power 2005, 127:553-563.
30. Najjar Y.S.H. Gas turbine cogeneration systems: a review of some novel cycles. Appl Therm Eng 2000, 20:179-197.
31. Xu H., Jing R.-L., Ni W.-D., Guo X.-D. Main affecting factors of hydrogen and oxygen hybrid cycle efficiency. JPower Eng 2009, 29:683-687. [in Chinese].
32. Sigfusson T.I. Hydrogen energy - abundant, efficient, clean a debate over the energy-system of change. Int J Hydrogen Energy 2009, 34:4452.
33. Xu H., Jing R.-L., Ni W.-D., Guo X.-D. Analysis of hydrogen and oxygen hybrid cycle. 2009 International conference on sustainable power generation and supply SUPERGEN 2009, 6-7 April 2009 2009, 1-5. IEEE, Piscataway, NJ, USA.