Jochen Bundschuh scite author profile

Despite the tremendous improvements in conventional desalination technologies, its wide use is still limited due primarily to high energy requirements which are currently met with expensive fossil fuels. The use of alternative energy sources is essential to meet the growing demand for water desalination. In the last few decades a lot of effort has being directed in the use of different renewable energy (RE) sources to run desalination processes. However, the expansion of these efforts towards larger scale plants is hampered by several techno-economic challenges. Several medium-scale RE-driven desalination plants have been installed worldwide. Nevertheless, most of these plants are connected to the electrical grid to assure a continuous energy supply for stable operation. Furthermore, RE is mostly used to produce electric power which can be used to run desalination systems. This review paper focusses on an integrated approach in using RE-driven with an emphasis on solar and geothermal desalination technologies. Innovative and sustainable desalination processes which are suitable for integrated RE systems are presented. An assessment of the benefits of these technologies and their limitations are also discussed.

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Arsenic in the environment: Biology and Chemistry

Bhattacharya

Welch

Stollenwerk

et al. 2007

Science of The Total Environment

507

162

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Antimony as a global dilemma: Geochemistry, mobility, fate and transport

Herath

Vithanage

Bundschuh

2017

Environmental Pollution

345

149

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Possible treatments for arsenic removal in Latin American waters for human consumption

Litter

Morgada

Bundschuh

2010

Environmental Pollution

254

122

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Microalgae for third generation biofuel production, mitigation of greenhouse gas emissions and wastewater treatment: Present and future perspectives – A mini review

Maity

Bundschuh

Chen

et al. 2014

Energy

313

110

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Arsenic exposure in Latin America: Biomarkers, risk assessments and related health effects

McClintock

Chen

Bundschuh

et al. 2012

Science of The Total Environment

155

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In Latin America, several regions have a long history of widespread arsenic (As) contamination from both natural and anthropological sources. Yet, relatively little is known about the extent of As exposure from drinking water and its related health consequences in these countries. It has been estimated that at least 4.5 million people in Latin America are chronically exposed to high levels of As (>50µg/L), some to as high as 2000 µg/L - 200 times higher than the World Health Organization (WHO) provisional standard for drinking water. We conducted a systematic review of 82 peer reviewed papers and reports to fully explore the current understanding of As exposure and its health effects, as well as the influence of genetic factors that modulate those effects in the populations of Latin America. Despite some methodological limitations, these studies suggested important links between high levels of chronic As exposure and elevated risks of numerous adverse health outcomes in Latin America - including internal and external cancers, reproductive outcomes, and childhood cognitive function. Several studies demonstrated genetic polymorphisms that influence susceptibility to these and other disease states through their modulation of As metabolism, with As methyltransferase (AS3MT), glutathione S-transferase (GST), and genes of one-carbon metabolism being specifically implicated. While the full extent and nature of the health burden are yet to be known in Latin America, these studies have significantly enriched knowledge of As toxicity and led to subsequent research. Targeted future studies will not only yield a better understanding of the public health impact of As in Latin America populations, but also allow for effective and timely mitigation efforts.

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Distribution and mobility of arsenic in the Río Dulce alluvial aquifers in Santiago del Estero Province, Argentina

Bhattacharya

Claesson

Bundschuh

et al. 2006

Science of The Total Environment

266

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