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Online since: June 2013
Authors: Gang Fang, Jin Mu Fu, Xiao Yin Chen, Wei Gong
Fig.2 displays that the annual mean amount of TN concentration changes obviously with the minimum value in 2008 and the maximum value in 2009.
Fig.4 displays that the average annual variation of the NH4+-N concentration of two different monitoring sections presents great comparability to each other, which has a descending trend by year except that the value of the NH4+-N concentration is significantly higher in 2008 than that in 2009.
Fig.4 Average annual change of NH4+-N in Huihe River in 2007-2010 Fig.5 displays that the NH4+-N concentration in Huihe River exhibits complicated seasonal variations and the variations of the mean amount of NH4+-N concentration in different years from the wet period to the dry period are different, which are affected by different sections even in the same year: the variations of NH4+-N concentration of Dongpingji section in different periods were in the order of wet > level water> dry period in 2007 and in 2008, while the variations of NH4+-N concentration of Dongpingji section were in the order of dry > level water>wet period in 2009 and in 2010; the variations of NH4+-N concentration of Qixianzha section in different periods were in the order of level water> dry> wet period in 2007 and in 2008, while the variations of NH4+-N concentration of Qixianzha section were in the order of dry> level water> wet period.
Fig.6 Average annual change of TP in Huihe River in 2007-2010 Fig.7 displays that there is no significant difference of the TP concentration in Huihe River in different periods, and the variations of the mean amount of TP concentration in different years and different sections are inconsistent with each other: the variations of TP concentration of Dongpingji section in different periods were in the order of wet> dry> level water period in 2007 and in 2008, while the variations of TP concentration of Dongpingji section were in the order of level water> dry> wet period in 2009 and wet> level water>dry period in 2010.
[3] W.C.Pi, B.O.Hu, H.Wong, et al.
Fig.4 displays that the average annual variation of the NH4+-N concentration of two different monitoring sections presents great comparability to each other, which has a descending trend by year except that the value of the NH4+-N concentration is significantly higher in 2008 than that in 2009.
Fig.4 Average annual change of NH4+-N in Huihe River in 2007-2010 Fig.5 displays that the NH4+-N concentration in Huihe River exhibits complicated seasonal variations and the variations of the mean amount of NH4+-N concentration in different years from the wet period to the dry period are different, which are affected by different sections even in the same year: the variations of NH4+-N concentration of Dongpingji section in different periods were in the order of wet > level water> dry period in 2007 and in 2008, while the variations of NH4+-N concentration of Dongpingji section were in the order of dry > level water>wet period in 2009 and in 2010; the variations of NH4+-N concentration of Qixianzha section in different periods were in the order of level water> dry> wet period in 2007 and in 2008, while the variations of NH4+-N concentration of Qixianzha section were in the order of dry> level water> wet period.
Fig.6 Average annual change of TP in Huihe River in 2007-2010 Fig.7 displays that there is no significant difference of the TP concentration in Huihe River in different periods, and the variations of the mean amount of TP concentration in different years and different sections are inconsistent with each other: the variations of TP concentration of Dongpingji section in different periods were in the order of wet> dry> level water period in 2007 and in 2008, while the variations of TP concentration of Dongpingji section were in the order of level water> dry> wet period in 2009 and wet> level water>dry period in 2010.
[3] W.C.Pi, B.O.Hu, H.Wong, et al.
Online since: November 2014
Authors: Elena Mavropoulos, Gutemberg Alves, Adriana Linhares, Daniela Silva, Letícia Hummel, Juliana Côrtes, Daiana Reis
ImplantNews 5(4) (2008) 369-375
Key Engineering Materials. 361-363 (2008) 1269-1272
Biomimetic Mg-substituted hydroxyapatite: From synthesis to in vivo behavior, J Mater Sci Mater Med 19 (2008) 239–247
Bone. 42 (2008) 129–38
[24] CT Wong, WW Lu, WK Chan, KMC Cheung, KDK Luk, DS Lu, ABM Rabie, LF Deng, JCY Leong.
Key Engineering Materials. 361-363 (2008) 1269-1272
Biomimetic Mg-substituted hydroxyapatite: From synthesis to in vivo behavior, J Mater Sci Mater Med 19 (2008) 239–247
Bone. 42 (2008) 129–38
[24] CT Wong, WW Lu, WK Chan, KMC Cheung, KDK Luk, DS Lu, ABM Rabie, LF Deng, JCY Leong.
Online since: November 2015
Authors: N. Tao, X. Li, Jin Ping Lu
Figure 4 Algae collector (left) and algae art sculpture (right)
Polymer aggregates
Wong and Ting [6] studied the comparison between normal and high strength concrete when 25% of total aggregates were replaced by rubber aggregates.
Wong and S.
Constr., 12 (2008) 489–498
Wong and S.
Constr., 12 (2008) 489–498
Online since: June 2010
Authors: Jian Wang, Yan Zhao, Jia Jin Le
., "Scientific Cloud Computing: Early Definition and Experience," Proc. 10th
International Conference of High-Performance Computing and Communications (HPCC 08), 2008,
pp. 825-830
Oprea, "HAIL: A High-Availability and Integrity Layer for Cloud Storage," Cryptology ePrint Archive, Report, 2008
[7] Mohamed Shehab, Anna Cinzia Squicciarini and Gail-Joon Ahn, Beyond User-to-User Access Control for Online Social Networks, ICICS 2008: 10th International Conference on Information and Communications Security, October, 2008, Birmingham, UK
[10] WONG R C, LI J, FU A W, et a1, "(α, k)-Anonymity: an enhaned k-anonymity model for privacy-preserving data publishing", Proceedings of the 12th ACM SIGKDD international conference on Knowledge discovery and data mining, ACM Press, New York, 2006, pp. 754-759
Oprea, "HAIL: A High-Availability and Integrity Layer for Cloud Storage," Cryptology ePrint Archive, Report, 2008
[7] Mohamed Shehab, Anna Cinzia Squicciarini and Gail-Joon Ahn, Beyond User-to-User Access Control for Online Social Networks, ICICS 2008: 10th International Conference on Information and Communications Security, October, 2008, Birmingham, UK
[10] WONG R C, LI J, FU A W, et a1, "(α, k)-Anonymity: an enhaned k-anonymity model for privacy-preserving data publishing", Proceedings of the 12th ACM SIGKDD international conference on Knowledge discovery and data mining, ACM Press, New York, 2006, pp. 754-759