Abstract: An application of farnesene in preparing a plant-derived urease inhibitor is provided. The compound can effectively inhibit activities of Canavalia ensiformis urease and soil urease, and has an effect that is equivalent to that of commercial urease inhibitor acetohydroxamic acid. The urease inhibitor in the present disclosure, derived from plants, has “pollution-free” characteristics of natural products, high biological safety, simple and stable chemical structure and remarkable urease inhibition effect, can solve the problems of conventional chemically-synthesized urease inhibitor such as high toxicity, easy degradation and poor stability, also provides a new concept for creating a biological ecological technology for efficiently inhibiting the rapid hydrolysis of urea in farmland and increasing the utilization rate of urea nitrogen fertilizer, and has good application value and development prospect.

Abstract: An application of farnesene in preparing a plant-derived urease inhibitor is provided. The compound can effectively inhibit activities of Canavalia ensiformis urease and soil urease, and has an effect that is equivalent to that of commercial urease inhibitor acetohydroxamic acid. The urease inhibitor in the present disclosure, derived from plants, has “pollution-free” characteristics of natural products, high biological safety, simple and stable chemical structure and remarkable urease inhibition effect, can solve the problems of conventional chemically-synthesized urease inhibitor such as high toxicity, easy degradation and poor stability, also provides a new concept for creating a biological ecological technology for efficiently inhibiting the rapid hydrolysis of urea in farmland and increasing the utilization rate of urea nitrogen fertilizer, and has good application value and development prospect.

Abstract: The present invention relates to a potential difference-based diversion electrode arrangement and field intensity compensation method, comprising the following steps: the arrangement positions of paired diversion electrodes are determined according to the difference of potential around a position of field intensity to be compensated and the direction of an electric field line, and the paired diversion electrodes are inserted; and the field intensity enhancement rate of the position of field intensity to be compensated and the compensated field intensity value are calculated according to the difference of potential and arrangement positions of the paired diversion electrodes.

Abstract: Presented is an electric field intensity compensation method for constructing a non-uniform electric field through an auxiliary electrode, including steps of: in a matrix electrode unit, designing an auxiliary electrode arrangement position according to the spatial distribution of the pollutant concentration; designing the polarity of the auxiliary electrode according to the position relationship between the auxiliary electrode and matrix electrodes; and constructing a non-uniform electric field by the auxiliary electrode and the matrix electrodes to implement space compensation of the electric field intensity.

Abstract: The present invention relates to an electric field intensity compensation method for constructing a non-uniform electric field through an auxiliary electrode, comprising the following steps: in a matrix electrode unit, designing auxiliary electrode arrangement position according to the spatial distribution of the pollutant concentration; designing the polarity of the auxiliary electrode according to the position relationship between the auxiliary electrode and matrix electrodes; and constructing a non-uniform electric field by the auxiliary electrode and the matrix electrodes to implement space compensation of the electric field intensity, In the present invention, a non-uniform electric field matching a pollutant concentration field is constructed by setting the space arrangement and polarity of the auxiliary electrodes on the basis of the matrix electrodes according to the spatial distribution of the pollutant concentration, the contradiction of consistency between the heterogeneity of the spatial distribut

Abstract: Disclosed is a modified activated sludge-based two-compartment treatment method for processing nitrate-contaminated drinking water. Raw water is firstly sent to a first TiO2-modified denitrifying activated sludge bioreactor (2), wherein organic carbon source is added in a controlled amount, and nitrate is partly reduced with nitrite being accumulated. Then, the effluent from the first bioreactor is sent to a second TiO2-modified denitrifying activated sludge bioreactor (3), wherein organic carbon source and hydrogen gas are supplemented, and remaining nitrate and accumulated nitrite are reduced to nitrogen gas. The denitrified effluent from the second bioreactor is sent to a settling tank (4), and TiO2-containing precipitates collected from the settling tank receive sequential alkaline and acidic treatment before being injected into the first bioreactor (2) for TiO2 recycling.

Abstract: A system and a method for remediation of organic contaminated soil are provided, which comprises M*N electrodes to form an electrode matrix of symmetrical electric field structure. The field intensity is uniform in those points that are equidistant from each electrode in remediation area. The electrodes arrayed in mesh style in remediation area are carried out electrokinetic remediation. To exchange between positive polarity and negative polarity of the electrodes periodically is to make each electrode be a state of anode intermittently which has preferable remediation efficiency, by operation mode of reversing row/column electrode groups in manner of electrical scanning.