Kannitha Krongthamchat scite author profile

Kannitha Krongthamchat

5Publications

29Citation Statements Received

27Citation Statements Given

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Affiliations

Khon Kaen University

Publications

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Specific methanogenic activity of halophilic and mixed cultures in saline wastewater

Riffat

Krongthamchat

2005

Int. J. Environ. Sci. Technol.

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ABSTRACT:Wastewater containing high concentrations of salt, are difficult to treat using biological treatment processes, especially anaerobic processes. Limited information is available on methanogenic activity in saline environments. The objective of this research was to investigate the activity of halophilic methanogens, digester sludge and a mixed culture of halophilic and methanogenic bacteria, at various levels of salinity, in terms of lag period and specific methanogenic activity (SMA) at two temperatures. For the halophilic bacteria at 35 o C, the initial SMA ranged from 0.46 to 0.90 g acetate/g VSS . d, but decreased at higher salt concentrations. The maximum SMA varied from 1.2 to 2.08 g acetate/g VSS . d. High sodium chloride concentrations had a significant adverse effect on digester sludge. At 25 o C, at salt concentrations of 30 g/l and above, the digester sludge could not acclimate even in 50 days. Little difference was observed in the maximum SMA of mixed culture and halophilic bacteria at high salt concentrations of 40 -50 g/l.

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Effect of trace metals on halophilic and mixed cultures in anaerobic treatment

Krongthamchat

Riffat

Dararat

2006

Int. J. Environ. Sci. Technol.

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ABSTRACT:Trace metals are known to stimulate the activity of anaerobic methanogenic bacteria involved in the degradation of organic matter. The objective of this research was to investigate the effect of three trace metals, iron, nickel and cobalt on the activity of halophilic methanogens, digester sludge and a mixed culture of halophilic bacteria and digester sludge, at various salt concentrations. Iron slightly stimulated both initial and maximum specific methanogenic activity (SMA) of halophilic methanogens at all salt concentrations. Iron addition was also able to increase both initial and maximum SMA of the mixed culture. Iron could not stimulate either initial or maximum SMA of digester sludge at salt concentrations of more than 10 g/L. Adding cobalt showed no benefit on the initial and maximum SMA of halophilic methanogens. A slight increase in the initial SMA was observed in mixed culture when cobalt was injected to the system containing sodium concentrations of 10-30 g/L. At salt concentrations above 40 g/L, cobalt could stimulate the maximum SMA of mixed culture. No benefits were found when cobalt was added to the digester sludge at sodium concentrations higher than 20 g/L. Nickel was observed to increase the initial SMA of digester sludge at all salt concentrations, and the maximum SMA of mixed culture at salt concentrations of 30-50 g/L.

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Anaerobic Treatment of High‐Saline Wastewater Using Halophilic Methanogens in Laboratory‐Scale Anaerobic Filters

Riffat¹,

Krongthamchat²

2007

Water Environment Research

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The presence of a high concentration of sodium in wastewater is considered inhibitory for anaerobic biological treatment. This research was designed to investigate the potential use of halophilic methanogens and a mixed culture of halophilic methanogens and digester sludge, in anaerobic filters, for treatment of organic pollutants in high-saline wastewater at 358C. Data related to startup of the filters are presented. Both halophilic and mixed-culture anaerobic filters were able to operate at a sodium chloride concentration of 35 g/L, at organic loading rates (OLRs) of 6.2 and 5 kg chemical oxygen demand (COD)/m 3 Á d, respectively. The COD removal efficiency was as high as 80%, and the systems were able to maintain a low volatile fatty acids concentration of 500 mg/L. No significant difference in COD removal was observed between the halophilic filter and the mixed-culture filter. Increasing the salt concentration to 37 g/L at an OLR of 3 kg/m 3 Á d caused system failure. Water Environ. Res., 79, 191 (2007).

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Anaerobic Processes

Riffat¹,

Jahan²,

Tallent³

et al. 2002

Water Environment Research

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Anaerobic Processes

Riffat¹,

Krongthamchat²,

Dararat³

2001

Water Environment Research

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