Titlebook: Advances in Ultrasound Technology for Environmental Remediation; Ta Yeong Wu,Ningqun Guo,Jacqueline Xiao Wen Hay Book 2013 The Author(s) 2

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書目名稱Advances in Ultrasound Technology for Environmental Remediation影響因子(影響力)




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書目名稱Advances in Ultrasound Technology for Environmental Remediation被引頻次




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書目名稱Advances in Ultrasound Technology for Environmental Remediation讀者反饋




書目名稱Advances in Ultrasound Technology for Environmental Remediation讀者反饋學(xué)科排名

乞丐

Theory and Fundamentals of Ultrasound,he use of ultrasound technology is shown to be very promising for the degradation of persistent organic compounds in wastewater as it is proven to be an effective method for degrading organic effluent into less toxic compounds. The advantages of this technology include potential chemical-free and si

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Applications of Ultrasound Technology in Environmental Remediation,ng these developments, the increasing need to introduce environmentally friendly and clean technology, which is able to minimize contaminants at the source, is an important factor. Past studies show that ultrasound-assisted-chemical reactions have been carried out in many types of degradation reacti

怕失去錢

Efficiency Issues for Ultrasound,d when a process is designed and controlled during the ultrasonic irradiation. Operating conditions such as applied ultrasound frequency, ultrasound intensity, liquid bulk temperature, initial pH of the solution, initial substrate concentration, and others affect ultrasound treatment performance in

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Abjure

Serenity

https://doi.org/10.1007/978-981-15-2010-5 is certain to cause significant environmental problems due to its accumulation in soil and water environments. Although biological method is generally used in the treatment of contaminants, this method is not perfect and continuous efforts to improve biological remediation are necessary. On the oth

枕墊

https://doi.org/10.1007/978-981-15-2010-5he use of ultrasound technology is shown to be very promising for the degradation of persistent organic compounds in wastewater as it is proven to be an effective method for degrading organic effluent into less toxic compounds. The advantages of this technology include potential chemical-free and si

PURG

Cytology

Roland Reichenbach,Duck-Joo Kwakd when a process is designed and controlled during the ultrasonic irradiation. Operating conditions such as applied ultrasound frequency, ultrasound intensity, liquid bulk temperature, initial pH of the solution, initial substrate concentration, and others affect ultrasound treatment performance in