search query: @keyword vaaleus / total: 8
reference: 5 / 8
| Author: | Ghiasvand Mohamadkhani, Mohammad |
| Title: | Application of Electroflotation for Deinking Process |
| Publication type: | Master's thesis |
| Publication year: | 2007 |
| Pages: | v + 52 s. + liitt. 9 Language: eng |
| Department/School: | Puunjalostustekniikan osasto |
| Main subject: | Puunjalostuksen kemia (Puu-19) |
| Supervisor: | Laine, Janne |
| Instructor: | Pirttinen, Esa |
| OEVS: | Electronic archive copy is available via Aalto Thesis Database.
Instructions Reading digital theses in the closed network of the Aalto University Harald Herlin Learning CentreIn the closed network of Learning Centre you can read digital and digitized theses not available in the open network. The Learning Centre contact details and opening hours: https://learningcentre.aalto.fi/en/harald-herlin-learning-centre/ You can read theses on the Learning Centre customer computers, which are available on all floors.
Logging on to the customer computers
Opening a thesis
Reading the thesis
Printing the thesis
|
| Location: | P1 Ark TKK 460 | Archive |
| Keywords: | deinking electroflotation electrocoagulation brightness ash and mass yields siistaus electroflotaatio electrokoagulaatio vaaleus tuhkan ja massan saanto |
| Abstract (eng): | Application of electricity for flotation in the water purification processes has been common practice for many years. This master's thesis examines a novel procedure to investigate the application of electroflotation in deinking. To undertake this work, a Voith laboratory flotation cell, combined with various electrocells, was used. The electrocells were Inlet, Al Bottom, Inert and Al Inlet Cells. The electrodes were designed and manufactured by Savcor Group Ltd Oy. Electrocells are able to liberate micro-bubbles from the cathode electrode and dissolve Al ions from the anode electrode. Electrocells were run in two different modes: potentiostate mode (Inlet Cell) and galvanostatic mode (Inert, Al Bottom and Al Inlet Cells). Trials were done in a laboratory and a mill (Stora Enso Sachsen Papir GmbH in Germany based on 100% recycled paper). In the laboratory tests, the same chemicals were applied for all experiments to observe the impact of electrocells, using NaOH 1%, fatty acid soap 1%, sodium silicate, Na2SiO3 (water glass) 2% and calcium chloride, CaCl2 2%. Two sampling points were used for the mill experiments: Inlet Primary Preflotation with 44-48% brightness and Outlet Secondary Postflotation with 60-60.5% brightness. For all trials, handsheets were made. In order to evaluate the results, brightness and yield were measured for the laboratory experiments. For mill experiments, brightness, ash content and yield were measured. The results showed that the brightness increase is strongly affected by the use of electricity in the cells. The brightness gain ranged between 2-4% in some cases. The galvanostatic mode gave better results than the potentiostate mode. It was possible to reach the desired brightness within a short flotation time compared to that in a conventional cell. It seems that dissolved Al ions increased the selectivity of electrocells, removing more ash than fibers. In some cases, final mass was higher than with a conventional cell. This could be explained by less entrapment of fibers by micro-bubbles and high selectivity of the electrocells. It is necessary to find an optimum level for the electricity input. Moreover, in order to evaluate precisely the electroflotation process and to optimize the charge dose related to the operating charge values/flotation time, some supplementary measurements are needed, such as measuring the Al ion concentration and evaluating the number of specks on the handsheets. Generally, application of electroflotation would seem to offer a huge potential for improving the deinking process. More studies, including pilot and mill-scale scales are needed to explore this potential. |
| ED: | 2007-03-13 |
INSSI record number: 33240
+ add basket
INSSI