Turn the Pulpit Loose features the lives and words of eighteen women evangelists including Sojourner Truth and Evangeline Booth, and lesser-known figures such as Jarena Lee (an African Methodist from the early 1800s) and Uldine Utley (a child evangelist in the early 1900s) who helped to shape American religious life from the nation’s infancy to the present. Highlighting substantial primary sources – sermons, articles, diaries, letters, speeches, and autobiographies – Priscilla Pope-Levison weaves together fascinating narratives of each woman’s life: her conversion and calling to preach, her primary evangelistic method, and her reflections about women in general. This anthology, complete with photographs of each evangelist, is an indispensable resource for a wide range of academic fields, including religion, history, women's studies, and literature.
In response to current and anticipated disinfection by-product (DBP) regulations, many utilities have begun to use chloramines as a secondary disinfectant. Chloramination produces DBPs such as haloacetic acids (HAAs), trihalomethanes (THMs), and haloacetonitriles (HANs) in lower concentrations than chlorination. Previous research has demonstrated that dihalogenated haloacetic acids (DXAAs) are the most commonly formed HAAs during chloramination. Some utilities may have difficulty meeting the new maximum contaminant level (MCL) for HAAs because chloramination does not limit the formation of DXAAs to the same extent as it does other DBPs. The objectives of this project were to: better understand the reactivity of key natural organic matter (NOM) fractions and the effects of treatment processes with respect to dihaloacetic acid (DXAA) formation, better delineate the influence of pH and Cl2/N ratio on DXAA formation, characterize DXAA formation kinetics and the impact of treatment processes on the kinetics, especially the impact of prechlorination, calculate the rate and extent of DXAA formation at elevated summer water temperatures, and determine the effect of bromide concentration on DXAA speciation and kinetics.
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