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Online since: November 2010
Authors: Kee Rong Wu, Chung Hsuang Hung, Hao Cheng Chang, Jui Ching Sun
Vol. 202 (2008), p. 2488
[14] J.
Vol. 80 (2008), p. 313 [16] V.
Vol. 260 (2008), 128
Vol. 85 (2008), p. 17 [26] H.
C- Vol. 112 (2008), p. 9285 [27] M.J.
Vol. 80 (2008), p. 313 [16] V.
Vol. 260 (2008), 128
Vol. 85 (2008), p. 17 [26] H.
C- Vol. 112 (2008), p. 9285 [27] M.J.
Online since: June 2013
Authors: Jin Mu Fu, Xiao Yin Chen, Wei Gong, Gang Fang
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: April 2021
Authors: Md Tanbir Sarowar
., 2008: pp. 322–330. https://doi.org/10.1109/TCAPT.2008.916791
Wong, Optimisation of single and double layer counter flow microchannel heat sinks, Appl.
Wong, M.L.
Technol. 68 (2008) 471–476. https://doi.org/10.1016/j.compscitech.2007.06.005
Soc. 91 (2008) 1405–1411. https://doi.org/10.1111/j.1551-2916.2008.02268.x
Wong, Optimisation of single and double layer counter flow microchannel heat sinks, Appl.
Wong, M.L.
Technol. 68 (2008) 471–476. https://doi.org/10.1016/j.compscitech.2007.06.005
Soc. 91 (2008) 1405–1411. https://doi.org/10.1111/j.1551-2916.2008.02268.x
Online since: August 2011
Authors: Yang Liu, Da Wang, Min Hai Chen
Highway Engineering,2008,33(1):36-39.
:J.Journal of Yan-cheng Institute of Technology Natural Science Edition,2008,21(2):74-78.
Highway Engineering,2008,33(2):58-63.
Journal of Chang’an University (Nat ural Science Edition) ,2008,28(1):72-76.
[10] Wong P K C, Priestley M J N, Park R.
:J.Journal of Yan-cheng Institute of Technology Natural Science Edition,2008,21(2):74-78.
Highway Engineering,2008,33(2):58-63.
Journal of Chang’an University (Nat ural Science Edition) ,2008,28(1):72-76.
[10] Wong P K C, Priestley M J N, Park R.
Online since: September 2014
Authors: Kai Jin Huang, Xin Lin, Yu Yue Wang
Vol.50(2008), p.2053
[4]P.K.Huang,J.W.Yeh,T.T.Shun and S.K.Chen: Adv.
Vol.202(2008), p.4666 [8]S.Varalakshmi, M.Kamaraj and B.S.Murty: J.
Vol.460(2008), p. 253 [9]T.K.Chen, M.S.Wong, T.T.Shun and J.W.Yeh: Surf.
A Vol.498(2008), p.482 [19]A.
Vol.202(2008), p.4666 [8]S.Varalakshmi, M.Kamaraj and B.S.Murty: J.
Vol.460(2008), p. 253 [9]T.K.Chen, M.S.Wong, T.T.Shun and J.W.Yeh: Surf.
A Vol.498(2008), p.482 [19]A.
Online since: December 2012
Authors: Mohamed Khaled Salahou, Xiu Ju Zhang
Theseprocesses are related to environmental factors as well as the geneticbackground of a crop. [19] Wong et al. (1979) suggested that stomatainfluenced the rate of COfixation in leaf mesophyll tissue and thatthe stomatal aperture was determined by the capacity of the mesophylltissue to fix carbon.
[15] Cattivelli, L., Rizza, F., Badeck, F., Mazzucotelli, E., Mastrangelo, A., Francia, E., Marè, C., Tondelli, A., Stanca, A., 2008.
[19] Wong, S.C., Cowan, I.R., Farquhar, G.D., 1979.
[15] Cattivelli, L., Rizza, F., Badeck, F., Mazzucotelli, E., Mastrangelo, A., Francia, E., Marè, C., Tondelli, A., Stanca, A., 2008.
[19] Wong, S.C., Cowan, I.R., Farquhar, G.D., 1979.
Online since: July 2014
Authors: M. Mudhukrishnan, P. Hariharan, A. Kadirvel
Lim, Y.S.Wong, M.Rahman, M.K.E.Lee, A study on the machining of high-aspect ratio micro-structures using micro-EDM, J.
Wong, M.
India. 67(2008)1072-1077
Wong, M.
India. 67(2008)1072-1077
Online since: August 2011
Authors: Yong Quan Yu, Ming Hui Wang, Bi Zeng
Grebogi: Controlling Chaos in a Temporally Irregular Environment, Physica D, Vol. 74, (1994),p 386-394
[8] Chen Jenyang and Wong Chingchang: Extension Controller Design via Sliding Mode Control, Engineering Science, Vol.3, No.9, (2001), p48-51
[9] Xu Shunxi and Wang Xingyu: Extension Control Model of Function Integration in CIPS, System Engineering Theory and its Implement, No. 2, (2008), p110-113
[10] Wong Chingchang and Chen Jenyang: Adaptive Extension Controller Design for Nonlinear Systems , Engineering Science.
Online since: January 2019
Authors: Bin Tang, Hong Chao Kou, Jin Shan Li, Kai Di Li, De Gui Liu
Wong et al.[10] reviewed the process details of spinning and described developments in terms of researches and industrial applications as well as directions in researches and development for future industrial applications.
Wong, T.
China. 18 (2008) 6-13.
Wong, T.
China. 18 (2008) 6-13.
Online since: February 2012
Authors: Jian Zu Wu, Jin Liu
Wong et al. show how a sales rebate contract helps achieve supply chain coordination thanks to the information sharing in the VMI system[6].
Wong,J.
International Journal of Production Economics, 2008, 111(2): 676-685.
Wong,J.
International Journal of Production Economics, 2008, 111(2): 676-685.