Stabilized sanitary landfill leachate treatment using anionic resin: Treatment optimization by response surface methodology

Journal of Hazardous Materials

Volumn 182, Issue 1-3, 2010, Pages 115-122

  Bashir, Mohammed J K ^a   Aziz, Hamidi Abdul ^a   Yusoff, Mohd Suffian ^a   Aziz, Shuokr Qarani ^a   Mohajeri, Soraya ^a  

^a SCHOOL OF CHEMICAL ENGINEERING   (Malaysia)

Author keywords

Central composite design (CCD); Ion exchange; Optimization; Resin; Stabilized leachate treatment

Indexed keywords

ANION EXCHANGE RESINS; CENTRAL COMPOSITE DESIGN (CCD); CENTRAL COMPOSITE DESIGNS; CONTACT TIME; EXPERIMENTAL DESIGN; INTERACTIVE EFFECT; LANDFILL LEACHATES; OPERATIONAL CONDITIONS; OPERATIONAL VARIABLES; PREDICTION MODEL; RESPONSE SURFACE METHODOLOGY; SANITARY LANDFILL; SHAKING SPEED; SUSPENDED SOLIDS; TREATMENT OPTIMIZATION; TREATMENT PERFORMANCE; TURBIDITY REMOVAL EFFICIENCY;

CHEMICAL OXYGEN DEMAND; COLOR; DESIGN; DYES; ION EXCHANGE; ION EXCHANGERS; IONS; LEACHING; MATHEMATICAL MODELS; OPTIMIZATION; OXYGEN; PH EFFECTS; REFUSE DISPOSAL; REMOVAL; SURFACE PROPERTIES; SYNTHETIC RESINS; TURBIDITY;

LEACHATE TREATMENT;

ANION EXCHANGE RESIN;

CHEMICAL OXYGEN DEMAND; COMPOSITE; EXPERIMENTAL DESIGN; ION EXCHANGE; LANDFILL; LEACHATE; OPTIMIZATION; PH; RESIN; SUSPENDED LOAD; TURBIDITY; WASTE TREATMENT;

ARTICLE; CHEMICAL OXYGEN DEMAND; COLOR; COMPOSITE MATERIAL; ENVIRONMENTAL SANITATION; EXPERIMENTAL DESIGN; ION EXCHANGE; LANDFILL; LANDFILL LEACHATE; METHODOLOGY; MODEL; PARTICLE SIZE; PH; PHYSICAL CHEMISTRY; PREDICTION; SURFACE PROPERTY; SUSPENDED PARTICULATE MATTER; TURBIDITY; WASTE COMPONENT REMOVAL;

ANALYSIS OF VARIANCE; ANION EXCHANGE RESINS; HYDROGEN-ION CONCENTRATION; OXYGEN; REFUSE DISPOSAL;

EID: 77955582308     PISSN: 03043894     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jhazmat.2010.06.005     Document Type: Article

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