Search for dissertations about: "Environmental Biotechnology"
Showing result 21 - 25 of 288 swedish dissertations containing the words Environmental Biotechnology.
-
21. Coagulant Protein from plant materials: Potential Water Treatment Agent
Abstract : Access to fresh water is a human right, yet more than 780 million people, especially in rural areas, rely on unimproved sources and the need for finding ways of treating water is crucial. Although the use of natural coagulant protein in drinking water treatment has been discussed for a long time, the method is still not in practice, probably due to availability of material and limited knowledge. READ MORE
-
22. The adsorption of arsenic oxyacids to iron oxyhydroxide columns : including studies of weakly hydrated ions and molecules in aqueous solution
Abstract : The fundamental side of this project includes determination of ionic radii and plausible hydration numbers for the weakly hydrated alkali metal ions in solution, as well as an investigation of the intramolecular bond lengths of arsenic oxyacid species and orthotelluric acid. Experimental methods such as EXAFS, XANES and LAXS have been used for these purposes, as well as thorough screening for relevant structures in crystal structure databases. READ MORE
-
23. A passage to wastewater nutrient recovery units : Microalgal-Bacterial bioreactors
Abstract : In recent years, the microalgal–bacterial process has been considered to be a very attractive engineering solution for wastewater treatment. However, it has not been widely studied in the context of conventional wastewater treatment design under Swedish conditions. READ MORE
-
24. Microbial treatment of textile wastewater applicable in developing countries
Abstract : .... READ MORE
-
25. The circadian clock in annuals and perennials : coordination of Growth with Environmental Rhythms
Abstract : Since the first signs of life on planet earth, organisms have had to adapt to the daily changes between light and dark, and high and low temperatures. This has led to the evolution of an endogenous time keeper, known as the circadian clock. READ MORE