Solubility and henry''s law constant for alcohols in water

A new correlation which provides reliable solubility values down to very, very low concentrations is presented for solubility of alcohols in water. The correlation is based on boiling point temperature of the alcohol and can be used for engineering studies involving health, safety and environmental considerations. Results for water solubility and Henry's law constant are provided for a wide variety of alcohols. Representative solubility values (parts per million by weight) are 74,000 for n-butanol (C₄H₁₀O) and 4.0 for 1-dodecanol (C₁₂H₂₆O).     

Anion-Exchange Resin-Based Desulfurization and Dechlorination of Spent Sorbent Material

Abstract

Emissions of acid gases such as SO₂ and HCI/CI₂ from energy conversion or waste incineration facilities are unacceptable. Under the various regulations, the emissions of such acid gases are regulated by the U.S. Environmental Protection Agency (EPA). Alkali metal sorbents can remove these acid gases more efficiently than the lime/limestone type sorbents used in the conventional flue gas desulfurization (FGD) systems. However, the resulting alkali metal sulfate and chloride are unsuitable for landfill disposal because they are water-soluble and can potentially leach into groundwater, altering the soil pH. Replacing the (virgin) sorbent material is expensive. Hence, it is desirable that the spent sorbent materials obtained from such emissions control systems be converted to sulfur- and chlorine-free forms, so that they can be reused. The weak-base, anionexchange resin-based desulfurization concept, developed and tested at the University of Tennessee Space Institute (UTSI), can also simultaneously remove sulfur- and chlorine- containing species from such spent sorbent materials. Under the U.S. Department of Energy’s (DOE) sponsorship, bench scale studies have been carried out at UTSI to evaluate the feasibility of removing sulfur- and chlorine-containing species using this resin-based concept. Efforts have also been made to enhance the candidate resins’ performance by carrying out the resin exhaustion step under CO₂ static pressure and by using suitable pH buffering agents, such as low-molecular weight organic acids. Preliminary cost estimates for a regeneration scheme employing reactivated alkali metal-based spent sorbent material using the ion-exchange resin-based concept seem attractive and comparable to currently available options. After further development, this low-cost, simple process can be easily integrated into alkali metal sorbent-based flue gas desulfurization and acid gas emission control systems.     

Effects of manganese waste on growth,nodulation, proline levels,and enzymatic activities in Vigna unguiculata (L.) Walp.

Phytoremediation studies were carried out on the waste of Kalakhunta manganese (Mn) mines located in Banswara, Rajasthan, which is rich in Mn and iron. Various treatments, including the addition of soil, farmyard manure, sawdust, and biogas slurry, as well as differing quantities of NPK and capping with 10% soil were undertaken to ameliorate the effects of inhospitable waste. The effect of unamended and variously treated amended waste was studied on the growth, nodulation, yield, leaf area, and enzymatic activity of the test plants to ascertain the degree of toxicosis that plants may encounter during the process of phytostabilization. The levels of proline and activities of polyphenol oxidase, peroxidase, acid phosphatase, and nitrate reductase were affected by the treatments applied. Data showed that addition of 10% soil + 3 NPK is the most suitable treatment for the purpose of revegetation of Mn-mine waste, as the plants displayed the highest growth under this treatment condition.