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Experimental study on commingled injection in multilayered low-permeability reservoir
Jingchen Ding 한국자원공학회 2017 Geosystem engineering Vol.20 No.2
Experiments were carried out using natural cores from low-permeability reservoir on three-layer commingled injection system to investigate the recovery characteristics of commingled injection in multilayered low-permeability reservoir. Results indicate that in the cases of commingled injection, ultimate recovery factor of each single layer was always lower than that of single layer injection. Commingled injection has little influence on the high permeability layer, and the influence is much less under stronger heterogeneity/higher injection rate. However, oil recovery of medium/low permeability layer, especially which of low permeability layer, is greatly influenced by reservoir commingled injection, and the influence is greater under stronger heterogeneity/higher injection. And for commingled injection in multilayered low-permeability reservoir, the ultimate recovery percent of low permeability layer is mainly dependent on reservoir heterogeneity instead of permeability.
A new integrative evaluation method for candidate reservoirs of hydrocarbon gas drive
Wei Hu,Zhe Wang,Jingchen Ding,Zhilin Wang,Quanzheng Ma,Yu Gao 한국자원공학회 2015 Geosystem engineering Vol.18 No.1
Before implementing hydrocarbon gas drive, an applicable evaluation of reservoirs for hydrocarbon gas drive can improve the success rate and economic benefit. On the basis of a large amount of literature research, 11 factors affecting the hydrocarbon gas injection development have been screened out. These 11 factors constitute the suitability evaluation indexes of candidate reservoirs for hydrocarbon gas drive. Meantime, the classification of 11 evaluation indexes has also been set up, and fuzzy statistical method, analytic hierarchy process, and expert assessment method have been adopted to obtain the weight value of each evaluation index. Three candidate reservoirs have been taken for example; using multi-level fuzzy comprehensive evaluation to optimize the most suitable candidate reservoir, the potential size of three candidate reservoirs for hydrocarbon gas drive is provided. By comparing the evaluation results with the numerical reservoir simulation results, the evaluation method not only gives a correct evaluation for candidate reservoirs but also has a high practicability and reliability.
Preliminary conceptual design of a small high-flux multi-purpose LBE cooled fast reactor
Xiong Yangbin,Duan Chengjie,Zeng Qin,Ding Peng,Song Juqing,Zhou Junjie,Xu Jinggang,Yang Jingchen,Li Zhifeng 한국원자력학회 2022 Nuclear Engineering and Technology Vol.54 No.8
The design concept of a Small High-flux Multipurpose LBE(Lead Bismuth Eutectic) cooled Fast Reactor (SHMLFR) was proposed in the paper. The primary cooling system of the reactor is forced circulation, and the fuel element form is arc-plate loaded high enrichment MOX fuel. The core is cylindrical with a flux trap set in the center of the core, which can be used as an irradiation channel. According to the requirements of the core physical design, a series of physical design criteria and constraints were given, and the steady and transient parameters of the reactor were calculated and analyzed. Regarding the thermal and hydraulic phenomena of the reactor, a simplified model was used to conduct a preliminary analysis of the fuel plates at special positions, and the temperature field distribution of the fuel plate with the highest power density under different coolant flow rates was simulated. The results show that the various parameters of SHMLFR meet the requirements and design criteria of the physical design of the core and the thermal design of the reactor. This implies that the conceptual design of SHMLFR is feasible
Jing Chen,Qifang Ren,Chunshan Xu,Bin Chen,Shaohua Chen,Yi Ding,Zhen Jin,Wanmi Guo,Xinyu Jia 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.123 No.-
In this study, Ag2O/BiVO4/diatomite composite with p-n heterojunction structure was synthesized bysimple hydrothermal method with diatomite as carrier. It was found that under the action of hydrogenperoxide (H2O2), the imidacloprid (IMD) could be effectively degraded by the composite. Systemic evaluationswas conducted on effects of pH value, catalyst dosage, H2O2 concentration, initial IMD concentration,and anion on how effeciently this new photocatalytic composite can degrade IMD. The results showthat the p-n heterojunction formed between the two contact surfaces of Ag2O nanoparticle and BiVO4promotes the charge transfer between the interfaces, inhibits recombination of electrons and holes,and thus significantly improves the catalytic performance. The stability and reusability of Ag2O/BiVO4/diatomite composites were tested with ICP experiment and cyclic experiment. Active substancecapture experiment and ESR reveal the photocatalytic reaction mechanism and confirm that superoxideradical (O2), hydroxyl radical (OH), and h+ can promote the degradation of IMD. The degradation productsand the intermediates of IMD were identified through LC-MS, on a basis of which the possible transformationpathway was proposed. In situ synthesis of p-type Ag2O and n-type BiVO4 heterojunctioncomposites has opened a new direction for photocatalytic degradation of organic pollutants.