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Publications by Laura Azócar
Can Microbially Induced Calcite Precipitation (MICP) Through a Ureolytic Pathway Be Successfully Applied for Removing Heavy Metals From Wastewaters?
Crystals
Materials Science
Inorganic Chemistry
Chemical Engineering
Condensed Matter Physics
Related publications
Biosequestration of Heavy Metals by Microbially Induced Calcite Precipitation of Ureolytic Bacteria
Romanian Biotechnological Letters
Applied Microbiology
Biotechnology
Agronomy
Crop Science
Genetics
Application of a Breakthrough Biosorbent for Removing Heavy Metals From Synthetic and Real Wastewaters in a Lab-Scale Continuous Fixed-Bed Column
Bioresource Technology
Waste Management
Renewable Energy
Sustainability
Disposal
Medicine
Bioengineering
Environmental Engineering
the Environment
Transport of Heavy Metals in Process Wastewaters
Application of Biological Method for Removing Selected Heavy Metals From Sewage Sludge
Physicochemical Problems of Mineral Processing
Geology
Theoretical Chemistry
Materials Chemistry
Process Chemistry
Economic Geology
Technology
Physical
Soil Washing Technology for Removing Heavy Metals From a Contaminated Soil: A Case Study
Polish Journal of Environmental Studies
Environmental Chemistry
Environmental Science
Removing Heavy Metals From Wastewater by Using Rice Husk Wastes Fiber
International Journal of Engineering and Advanced Technology
Engineering
Computer Science Applications
Environmental Engineering
Removing Heavy Metals Through Different Types of Soils and Marble Powder Found in Oman
Journal of Ecological Engineering
Evolution
Ecology
Systematics
Behavior
Environmental Science
Fracture Sealing With Microbially-Induced Calcium Carbonate Precipitation: A Field Study
Final Report for DOE Grant No. DE-FG02-07ER64404 - Field Investigations of Microbially Facilitated Calcite Precipitation for Immobilization of Strontium-90 and Other Trace Metals in the Subsurface