Cellulose fiber dissolution in sodium hydroxide solution at low temperature dissolution kinetics and solubility improvement /

Wang, Ying.

January 2008

Thesis (Ph.D)--Chemical Engineering, Georgia Institute of Technology, 2009. / Committee Chair: Deng, Yulin; Committee Member: Banerjee, Sujit; Committee Member: Frederick, James; Committee Member: Hsieh, Jeffery; Committee Member: Ragauskas, Arthur J.. Part of the SMARTech Electronic Thesis and Dissertation Collection.

Heat transfer in the condensation of vapors including the condensation of diphenyl and the concentration of caustie soda,

Monrad, Carl Corydon, Badger, Walter L. Diamond, Horace Williams,

January 1900

Thesis (Ph. D.)--University of Michigan, 1930. / Cover title. "Presented before the meeting of the American institute of chemical engineers, Detroit, Mich., June 4 to 6. 1930." "Literature cited": p. 26, 15.

The effect of salts on the parcasein-sodium hydronide [sic] equilibrium ...

Robinson, Allen Dinwoody, Gortner, Ross Aiken, Palmer, Leroy S.,

January 1900

Thesis (Ph. D.)--University of Minnesota, 1930. / Cover title. Vita. Caption title: Physico-chemical studies on proteins. VI. The effect of salts on the casein-sodium hydroxide and paracasein-sodium hydroxide equilibria [by] Allen D. Robinson, Ross Aiken Gortner and Leroy S. Palmer. "Published as Paper no. 1087, Journal series, Minnesota Agricultural experiment station." From the Journal of physical chemistry, vol. XXXVI, no. 7, July, 1932. "Literature cited": p. 1881.

Sodium Hydroxide rather than Sodium Carbonate the Source of Alkalinity in Black Alkali Soils

Breazeale, J. F., McGeorge, W. T.

15 December 1926

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Agriculture -- Arizona

Alkali lands

Reclamation of land -- Arizona

Sodium hydroxide

Effect of Alkaline Pretreatment on Anaerobic Digestion of Organic Fraction of Municipal Solid Waste

Alqaralleh, Rania Mona

27 March 2012

The rapid accumulation of municipal solid waste is a significant environmental concern in our rapidly growing world. Due to its low cost, high energy recovery and limited environmental impact anaerobic digestion (AD) is a promising solution for stabilizing the organic fraction of municipal solid waste (OFMSW). Hydrolysis is often the rate-limiting step during AD of wastes with high solid content; this step can be accelerated by pretreatment of waste prior to AD. This thesis presents the results of alkaline pretreatment of OFMSW using NaOH and KOH. Four different pH levels 10, 11, 12 and 13 at two temperatures 23±1°C and 80±1°C were examined to study the effects of the pretreatment on (i) enhancing the solubility of the organic fraction of the waste, and (ii) enhancing the AD process and the biogas production. The effects on solubility were investigated by measuring changes in the soluble COD (SCOD) concentrations of pretreated wastes and the enhanced AD was investigated by measuring volatile solids (VS) destruction, total COD (TCOD) and SCOD removal in addition to biogas and methane production using biochemical methane potential (BMP) assay and semi-continuous laboratory reactor experiments. Pretreatment at pH 13 at 80±1°C demonstrated the maximum solubility for both NaOH and KOH pretreated samples; however the BMP analysis demonstrated that pretreatment at pH 12 at 23±1°C showed the greatest biogas yield relative to the removed VS for both chemicals. Thus pretreatment at pH 12 at 23±1°C using NaOH and KOH were examined using semi-continuous reactors at three different HRTs: 10, 15 and 20 days. Pretreatment demonstrated a significant improvement in the AD performance at SRTs of 10 and 15 days.

Solubilization

Sodium hydroxide

Potassium hydroxide

Alkaline pretreatment

Anaerobic biodegradability

Effect of Alkaline Pretreatment on Anaerobic Digestion of Organic Fraction of Municipal Solid Waste

Alqaralleh, Rania Mona

27 March 2012

The rapid accumulation of municipal solid waste is a significant environmental concern in our rapidly growing world. Due to its low cost, high energy recovery and limited environmental impact anaerobic digestion (AD) is a promising solution for stabilizing the organic fraction of municipal solid waste (OFMSW). Hydrolysis is often the rate-limiting step during AD of wastes with high solid content; this step can be accelerated by pretreatment of waste prior to AD. This thesis presents the results of alkaline pretreatment of OFMSW using NaOH and KOH. Four different pH levels 10, 11, 12 and 13 at two temperatures 23±1°C and 80±1°C were examined to study the effects of the pretreatment on (i) enhancing the solubility of the organic fraction of the waste, and (ii) enhancing the AD process and the biogas production. The effects on solubility were investigated by measuring changes in the soluble COD (SCOD) concentrations of pretreated wastes and the enhanced AD was investigated by measuring volatile solids (VS) destruction, total COD (TCOD) and SCOD removal in addition to biogas and methane production using biochemical methane potential (BMP) assay and semi-continuous laboratory reactor experiments. Pretreatment at pH 13 at 80±1°C demonstrated the maximum solubility for both NaOH and KOH pretreated samples; however the BMP analysis demonstrated that pretreatment at pH 12 at 23±1°C showed the greatest biogas yield relative to the removed VS for both chemicals. Thus pretreatment at pH 12 at 23±1°C using NaOH and KOH were examined using semi-continuous reactors at three different HRTs: 10, 15 and 20 days. Pretreatment demonstrated a significant improvement in the AD performance at SRTs of 10 and 15 days.

Solubilization

Sodium hydroxide

Potassium hydroxide

Alkaline pretreatment

Anaerobic biodegradability

A study of some reaction rates in the homogeneous system water-sodium hydroxide-cellobiose

MacLaurin, Donald James

01 January 1969

The broad objective of the study was to gain further knowledge of the reaction rates and mechanisms by which carbohydrates, particularly 3(l-4) glucans, are transformed and degraded in aqueous alkaline solutions. While the isomerization, epimerization, and degradation of carbohydrates has been extensively studied and reviewed, there are practically no kinetic data available on these important reactions due apparently to a lack of reasonable procedures for assay of the reaction systems. Because of the important theoretical, physiological, and industrial implications of these reactions, it appeared useful to have kinetic data on them and concomitantly thus to develop a method for obtaining such data. The specific problem selected for study from this broad area was the measurement of reaction rates prevailing in the homogeneous system: cellobiose-l molar sodium hydroxide-water at 22°C. and to derive-the related rate constants from the reaction rate expressions and then to assess current understanding of these reactions in light of the kinetic data obtained.

Disaccharides

Cellulose

Chemical degradation

Cellobiose

Measurement

Reaction kinetics

Sodium hydroxide

The hydrolysis of sodium sulfide in mixtures with sodium hydroxide

Martin, George E. (George Edward)

01 January 1948

No description available.

Kraft liquors

Sodium sulfide

Sodium hydroxide

Kraft pulping

Hydrolysis

Concentration

The diffusional properties of sodium hydroxide

Fary, A. David,

January 1966

Thesis (Ph. D.)--Institute of Paper Chemistry, 1966. / Includes bibliographical references (p. 93-96).

Development of an alkaline redox flow battery : from fundamentals to benchtop prototype

Arroyo Currás, Netzahualcóyotl

03 September 2015

This work presents the first alkaline redox flow battery (a-RFB) based on the coordination chemistry of cobalt(III/II) and iron(III/II) with amino-alcohol ligands in concentrated NaOH([subscript aq]). The a-RFB was developed by carrying out systematic structural and electrochemical characterizations of various redox-active coordination compounds to find the most suitable candidates for electrochemical energy storage. In the characterization studies, particular attention was given to the redox couple Fe(III/II)- TEA, where TEA = triethanolamine, because of its importance in the fields of supramolecular chemistry, magnetic memory films, and electrochemical energy storage. The structures of Fe(III)-TEA in the solid state and in alkaline solution are reported for the first time. Moreover, experimental evidence is presented for the existence of an EC reaction in the heterogeneous reduction of Fe(III/II)-TEA in concentrated base. Furthermore, experiments were carried out to study the reactivity of Fe(II)-TEA with O2. This is important because O2 reacts spontaneously with Fe(II)-TEA to produce hydrogen peroxide, decreasing the charging-discharging capacity of the a-RFB. The reduction of oxygen by Fe(II)-TEA in concentrated base was studied by UV-Vis spectroscopy and coulometric titrations. Additionally, a new method for the quick identification of redox couples with slow EC reactions, k[subscript f] < 0.1 s-1, is presented. The new method is based on scanning electrochemical microscopy (SECM) and consists of creating a thin-layer cell between the tip and substrate electrode. During analysis of a redox couple, the tip reports a current transient proportional to the decaying concentration of the product of the E reaction, from which an apparent forward rate constant for the C reaction can be determined. This method was designed for the field of RFB research, where the identification of redox couples with no EC reactions is necessary to ensure that a battery can run for thousands of cycles. Lastly, surface oxidation of polycrystalline Ir ultramicroelectrodes was studied by the surface interrogation mode of SECM (SI-SECM), using Fe(II)-TEA as the titrant. This was done to demonstrate the existence of hydrous oxides of Ir(IV) and Ir(V) prior to the onset of oxygen evolution in concentrated base. Numerical simulations were carried out using commercial software and were used to validate the experimental results reported in this work. / text

Flow battery

Alkaline

Triethanolamine

Sodium hydroxide

Iron

Cobalt

Reversible