Determination of Chemical Oxygen Demand in Domestic Wastewater by near Infrared Spectrometry of Seston and Partial Least Squares Calibration

Abstract

Get full access to this article

View all access options for this article.

References

Oliveira

S.M.A.C.

von Sperling

, “Evalution of 166 Treatment plants operating in Brasil, comprising several technologies. Part 1- Performance analysis”, Eng. Sanit. Ambient. 10(4), 347–357 (2005).

Medeiros

V.M.

Araújo

M.C.U.

Galvão

R.K.H.

Silva

E.C.

Saldanha

T.C.B.

Toscano

I.A.S.

Oliveira

M.S.R.

Freitas

S.K.B.

Neto

M.M.

, “Use of near-infrared reflectance spectrometry for monitoring water resources: A case study concerning the analysis of river seston downstream of an effluent discharge point”, NIR news 17(8), 8–9 (2006).

Zamora

P. P.

Cordeiro

A.G.

Nagata

, “Utilização de regressão multivariada para avaliação espectrofotométrica da demanda química de oxigênio em amostras de relevância ambiental”, Quim. Nova 28, 838–841 (2005).

APHA , Standard Methods for Examination of Water and Wastewater, 20th Edn. American Public Health Association, Washington, DC, USA (1998).

Sousa

A.C.

Lucio

M.M.L.M.

Neto

O.F. Bezerra

Marcone

G.P.S.

Pereira

A.F.C.

Dantas

E.O.

Fragoso

W.D.

Araujo

M.C.U.

Galvão

R.K.H.

, “A method for determination of COD in a domestic wastewater treatment”, Anal. Chim. Acta 588, 231–236 (2007).

Dabakk

Nilson

Geladi

Wold

Renberg

, “Inferring lake water chemistry from filtered seston using NIR spectrometry”, Water Res. 34(5), 1666–1672 (1999).

Trygg

Wold

, “PLS regression on wavelet compressed NIR spectra”, Chemometr. Intell. Lab. Syst. 42, 209–220 (1998).

Galvão

R.K.H.

Araujo

M.C.U.

José

G.E.

Pontes

M.J.C.

Silva

E.C.

Saldanha

T.C.B.

, “A method for calibration and validation subset partitioning”, Talanta 67, 736–740 (2005).

Feudale

R.N.

Woody

N.A.

Tan

Myles

A.J.

Brown

S.D.

Ferré

, “Transfer of multivariate calibration models: A review”, Chemometr. Intell. Lab. Syst. 64, 181–192 (2002).