DESALINATION OF HISTORIC BUILDINGS AND ARCHAEOLOGICAL PIECES THROUGH THE USE OF MICROORGANISMS (Q3214311)
Jump to navigation
Jump to search
Project Q3214311 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | DESALINATION OF HISTORIC BUILDINGS AND ARCHAEOLOGICAL PIECES THROUGH THE USE OF MICROORGANISMS |
Project Q3214311 in Spain |
Statements
182,204.8 Euro
0 references
227,756.0 Euro
0 references
80.0 percent
0 references
7 October 2015
0 references
30 June 2017
0 references
GEA ASESORIA GEOLOGICA SOC COOP
0 references
43°27'16.45"N, 5°51'2.30"W
0 references
33035
0 references
Investigación sobre un método para desalinizar: la biorremediación, que mediante el uso de nanobacterias y otros microorganismos (hongos, algas) permiten eliminar de manera efectiva y definitiva las sales solubles presentes en el interior de los materiales constructivos._x000D_ Dentro de las miles de bacterias y microorganismos que existen en el entorno y que son inocuas para el hombre y el medioambiente, BIO-CLEANNING se centrará en la identificación de aquellas con mayores tasas de desalinización. A este fin se llevarán a cabo ensayos sobre diferentes tipos de materiales pétreos saturados previamente con aquellas sales solubles más habituales en el patrimonio, a la vez que se validad las técnicas no destructivas que permitan monitorizar la desalinización. Finalmente se optimizará la tecnología desarrollada para su uso industrial. (Spanish)
0 references
Research on a desalination method: bioremediation, which through the use of nanobacteria and other microorganisms (fungi, algae) allows the effective and definitive elimination of the soluble salts present inside building materials._x000D_ Within the thousands of bacteria and microorganisms that exist in the environment and are safe for humans and the environment, BIO-CLEANNING will focus on identifying those with higher desalination rates. To this end, tests will be carried out on different types of previously saturated stone materials with the most common soluble salts on the heritage, while validating the non-destructive techniques that make it possible to monitor desalination. Finally, the technology developed for industrial use will be optimised. (English)
0 references
Llanera
0 references
Identifiers
IDE/2015/000740
0 references