Lorentz JÄNTSCHI (lori) works ?id=245
  • [id] => 245
  • [recorddate] => 2013:06:16:11:36:18
  • [lastupdate] => 2013:06:16:11:36:18
  • [type] => article
  • [place] => Cluj-Napoca, Romania
  • [subject] => mathematics - modeling; physics - environmental
  • [relatedworks] =>
    • 2 (average):
      • (Distribution fitting 8.) Weather monitoring: wind analysis (May, 2009; GPS: Lat. N46°45'35"; Long. E23°34'19"), ?id=202
    • 3 (low):
      • Inference in meteorological data taken from January 8, 2011 at three different locations, ?id=252
      • Semi-quantitative calibration of PortaLibs 2000 for magnesium, ?id=253
      • Relative outside humidity - analysis of variance, ?id=254
    • 4 (some):
      • Weather monitoring setup and analysis of air, soil and leaf parameters, ?id=203
  • [file] => ?f=245
  • [mime] => application/pdf
  • [size] => 140110
  • [pubname] => BUASVMCN. Animal science and Biotechnology
  • [pubinfo] => University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca
  • [pubkey] => ISSN 1843-5262, eISSN 1843-536X
  • [workinfo] => 68(1-2): 368-375
  • [year] => 2011
  • [title] => Factor analysis on physical-chemical parameters of wastewater from Medias's treatment plant
  • [authors] => Dana M. POPA, Letiţia OPREAN, Lorentz JÄNTSCHI
  • [abstract] =>
    The physical-chemical parameters of wastewater at the entrance and exit of Medias’s wastewater treatment plant during 2009-2011 were determined. Association analysis, factor analysis, multiple linear regression analysis, and t-Test (paired two samples for means) were applied in order to establish a model to explain the pollutants removal degree and the variation in treated water quality. The strongest association occurs between chemical and biochemical oxygen demand. The results indicate that ammonia also has a great influence on the efficiency of wastewater treatment process. The regression analysis leads to a statistically significant model explaining the interdependence of the parameters.
  • [keywords] => wastewater; wastewater treatment plant (WWTP); dendrogram; factor analysis