Bioleaching of Zinc and Copper from Anaerobically Digested Swine Manure
Bioleaching of Zinc and Copper from Anaerobically Digested Swine Manure

Author: Brian Anthony Foulkes

Publisher:

Published: 2002

Total Pages: 170

ISBN-13:

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Zinc and copper are supplemented into a swine's diet in relatively large concentrations and then further concentrated in sludge by anaerobic digestion. Anaerobic digestion, which produces energy and organic fertilizer, is gaining popularity as a treatment of swine manure. Land application can be used for disposal, although these sludges can contaminate the soil with heavy metals. The concentrations of zinc and copper in anaerobically digested swine manure are approximately 2,900 mg/kg and 1200 mg/kg respectively. These concentrations greatly exceed the regulations for many European countries and are on the borderline for the EPA 503 land application limits. Metals when released into the environment can accumulate to high concentrations and can contaminate soils, groundwater and living organisms. Bioleaching is a process that removes metals from solids or biomass, by acidifying the sludge and therefore solubilizing the metals attached to biosolids. Bioleaching has been successfully applied to many other waste streams but has yet to be applied to anaerobically digested swine manure, which contains both high ammonia and organic compounds both are toxic to sulfur oxidizing bacteria. Traditional physical and chemical methods for metal removal are expensive. Removal of heavy metals by bioleaching has the potential to be highly efficient and economical. A Thiobacilli culture was established by acclimating the bacteria to anaerobically digested swine manure using elemental sulfur. The bioleaching batch tests used this inoculum in the bioleaching experiments. Experiments were completed to test the effects of inoculation, substrate, and solids concentration. ORP, pH, sulfate, nitrate, pathogen reduction, copper and zinc were measured regularly in this study. Results showed that bioleaching is feasible to remove copper and zinc from anaerobically digested swine manure. Inoculation proved to be valuable in increasing the rate of acidification. The results also showed that at high concentrations above 6% TS, the potential for using bioleaching decreases and that higher sulfur concentration yield greater metal removal efficiencies. Using 6% TS and 10,000 mg/l of elemental sulfur in the batch experiments, 94% of Zn and 72% of Cu was solubilized.

Heavy Metals
Heavy Metals

Author: Wim Salomons

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 409

ISBN-13: 3642793169

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"Heavy Metals: Problems and Solutions" is divided into three sections dealing with basic geochemical processes, remediation and case studies. The basic geochemical processes are discussed with respect to mobility in the environment and impact as well as methods to derive guidelines for heavy metals. Remediation focuses on currently available methods to treat contaminated sediments and soils. In addition, it considers the concept of geochemical engineering for remediation of large areas contaminated by metals. A number of case studies of polluted sediments and soils and their environmental impact highlight the principles discussed in the first two sections.

Current Advances in Anaerobic Digestion Technology
Current Advances in Anaerobic Digestion Technology

Author: Marcell Nikolausz

Publisher: MDPI

Published: 2021-03-17

Total Pages: 230

ISBN-13: 303650222X

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Anaerobic digestion (AD) is one of the oldest biotechnological processes and originally referred to biomass degradation under anoxic conditions in both natural and engineered systems. It has been used for decades to treat various waste streams and to produce methane-rich biogas as an important energy carrier, and it has become a major player in electrical power production. AD is a popular, mature technology, and our knowledge about the influencing process parameters as well as about the diverse microbial communities involved in the process has increased dramatically over the last few decades. To avoid competition with food and feed production, the AD feedstock spectrum has constantly been extended to waste products either rich in recalcitrant lignocellulose or containing inhibitory substances such as ammonia, which requires application of various pre-treatments or specific management of the microbial resources. Extending the definition of AD, it can also convert gases rich in hydrogen and carbon dioxide into methane that can substitute natural gas, which opens new opportunities by a direct link to traditional petrochemistry. Furthermore, AD can be coupled with emerging biotechnological applications, such as microbial electrochemical technologies or the production of medium-chain fatty acids by anaerobic fermentation. Ultimately, because of the wide range of applications, AD is still a very vital field in science. This Special Issue highlights some key topics of this research field.

Metal Nanoparticles in Microbiology
Metal Nanoparticles in Microbiology

Author: Mahendra Rai

Publisher: Springer Science & Business Media

Published: 2011-04-02

Total Pages: 306

ISBN-13: 3642183123

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Following an introduction to biogenic metal nanoparticles, this book presents how they can be biosynthesized using bacteria, fungi and yeast, as well as their potential applications in biomedicine. It is shown that the synthesis of nanoparticles using microbes is eco-friendly and results in reproducible metal nanoparticles of well-defined sizes, shapes and structures. This biotechnological approach based on the process of biomineralization exploits the effectiveness and flexibility of biological systems. Chapters include practical protocols for microbial synthesis of nanoparticles and microbial screening methods for isolating a specific nanoparticle producer as well as reviews on process optimization, industrial scale production, biomolecule-nanoparticle interactions, magnetosomes, silver nanoparticles and their numerous applications in medicine, and the application of gold nanoparticles in developing sensitive biosensors.