Author
Dinh Duc Nguyen
Other affiliations: Ho Chi Minh City University of Technology, Dankook University, Vietnam Academy of Science and Technology ...read more
Bio: Dinh Duc Nguyen is an academic researcher from Kyonggi University. The author has contributed to research in topics: Wastewater & Adsorption. The author has an hindex of 35, co-authored 232 publications receiving 4313 citations. Previous affiliations of Dinh Duc Nguyen include Ho Chi Minh City University of Technology & Dankook University.
Topics: Wastewater, Adsorption, Materials science, Microbial fuel cell, Epoxy
Papers
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TL;DR: The current progress and developments in the pretreatment routes for enhancing lignin degradation are focused on and the liquid and gaseous biofuel production by fermentation, gasification and hybrid technologies along with the biorefinery schemes which involves the synthesis of high value-added chemicals, biochar and other valuable products are assessed.
322 citations
TL;DR: The development of antibiotic alternatives and the enhanced implementation of vaccination and biosecurity are promising management approaches to cut down the consumption of antibiotics during swine production and the combined system of bioprocesses and AOPs is expected to be a promising technology for elimination and mineralization of A&H in swine wastewater.
272 citations
TL;DR: Modified conventional biological processes, advanced biological technologies and MBR hybrid systems are considered as a promising technology for removing toxicants from swine wastewater.
204 citations
TL;DR: Several aspects of MFCs such as anode, cathode and membrane are explored in an effort to overcome the practical challenges of this system.
200 citations
TL;DR: Desorption studies indicated that metal-loaded biosorbent could be used after three consecutive sorption, desorption and regeneration cycles by applying a semi-simulated real wastewater.
198 citations
Cited by
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Journal Article•
28,685 citations
Journal Article•
TL;DR: A review of the turn of events and points of view of biogas in and its utilization for power, heat and in transport in the European Union (EU) and its Member States is presented in this article.
Abstract: This paper presents a review of the turn of events and points of view of biogas in and its utilization for power, heat and in transport in the European Union (EU) and its Member States. Biogas creation has expanded in the EU, empowered by the sustainable power strategies, notwithstanding monetary, ecological and atmosphere benefits, to arrive at 18 billion m3 methane (654 PJ) in 2015, speaking to half of the worldwide biogas creation. The EU is the world chief in biogas power creation, with more than 10 GW introduced and various 17,400 biogas plants, in contrast with the worldwide biogas limit of 15 GW in 2015. In the EU, biogas conveyed 127 TJ of warmth and 61 TWh of power in 2015; about half of absolute biogas utilization in Europe was bound to warm age. Europe is the world's driving maker of biomethane for the utilization as a vehicle fuel or for infusion into the petroleum gas network, with 459 plants in 2015 creating 1.2 billion m3 and 340 plants taking care of into the gas network, with a limit of 1.5 million m3. Around 697 biomethane filling stations guaranteed the utilization 160 million m3 of biomethane as a transport fuel in 2015.
703 citations
TL;DR: Nanocelluloses are natural materials with at least one dimension in the nano-scale as discussed by the authors, which combine important cellulose properties with the features of nanomaterials and open new horizons for materials science and its applications.
567 citations