Your search keyword '"Fan, Caiwei"' showing total 7 results

1. The contribution and impact of shallow water platform as a potential source area on siliceous submarine fans.

Author

Zheng, Xiaobo, Zhu, Hongtao, Liu, Qianghu, Zeng, Zhiwei, Sun, Zhongheng, and Fan, Caiwei

Subjects

WATER depth, SEDIMENTARY structures, HEAVY minerals, CONTINENTAL slopes, ROOT-mean-squares

Abstract

The shelf‐margin deltas are the primary 'sources' of interest in siliceous submarine fan source‐to‐sink systems. However, less has yet to be discovered about the roles and effects of the shallow water platform situated on continental slopes. Using the Miocene sediments of the Ledong‐Lingshui Sag in the western part of the Qiongdongnan Basin (QDNB), this paper studies the YC35 coarse‐grained submarine fan that developed in the Meishan Formation (Fm.). The material sources, depositional characteristics, and developmental mechanisms of this fan were investigated. The restored palaeogeomorphology, based on high‐resolution 3D seismic data, shows that a shallow water platform exists. According to geochemical palaeoenvironmental data, the shallow water platform was ideal for forming carbonate deposits in the Meishan Fm., owing to the warm and humid palaeoclimate and the shifting trend in palaeowater depth. Based on the combined source tracing of heavy minerals, coherence slices, and seismic profiles, the shallow water platform and the Ningyuan River source on Hainan Island contributed to the YC35 coarse‐grained submarine fan. Compared to submarine fans formed during different periods, coarse‐grained fan stands out due to its distinct sedimentary structure, rock composition, and microlithological characteristics. Aside from not following the usual Bowmar sequence, there is an excess of gravel and no clear bedding or lamination. A large number of rock fragments, mostly granite and sedimentary rock (carbonatite), make up the rock composition. According to these results, the shallow water platform significantly affects submarine fan material composition. In addition, the attribute slice based on the root mean square reveals that shallow water platforms moderate peripheral deposition. We attribute the development and proximal supply of the shallow water platform to diapirism and forced regression. Our research provides novel insights and comprehension into the investigation of submarine fan sedimentary systems. [ABSTRACT FROM AUTHOR]

Published

2024

2. Fluid Charging and Paleo‐pressure Evolution in the Ledong Slope Zone of the Yinggehai Basin, South China Sea.

Author

ZHAO, Jing, HUANG, Zhilong, MA, Jian, WANG, Rui, YANG, Yizhuo, FAN, Caiwei, ZHOU, Ying, and XU, Maguang

Subjects

GEOLOGICAL modeling, FLUID inclusions, GAS reservoirs, GAS migration, HYDRAULIC fracturing, GAS condensate reservoirs, SHALE gas reservoirs, FLUIDS

Abstract

Large numbers of gas reservoirs have been discovered in overpressure basins. Fluid charging has a close relationship with paleo‐pressure evolution, affecting the migration of gas reservoirs. To study fluid charging and the related pressure system, we analyzed burial histories and fluid inclusion (PVTx) simulations and conducted basin modeling of the Ledong Slope Zone in the Yinggehai Basin as an example. On the basis of fluid‐inclusion assemblages (FIAs), homogenization temperature (Th), final melting temperature (Tm, ice) and Raman spectroscopy in fluid inclusions, there are three stages of fluid charging: during the first and second stage, methane‐dominated fluid was charged at 2.2–1.7 Ma and 1.7–0.9 Ma, respectively. In the third stage, CO2‐rich hydrothermal fluid was charged since 0.9 Ma. It could be concluded from the well‐logging data that the disequilibrium compaction in the Yinggehai Fm., along with the fluid expansion and clay diagenesis in the Huangliu and Meishan formations, resulted in the overpressure in the Ledong slope zone. The evolution of paleo‐pressure was affected by the sedimentation rate of the Yinggehai Fm., as well as the hydrocarbon generation rate. Additionally, the Ledong Slope Zone is less affected by diapir activity than the nearby diapir area. Based on fluid inclusions, paleo‐pressure, basin modeling and geological background, the gas migration history of the Ledong Slope Zone can be divided into four stages: in the first stage, excess pressure was formed around 5 Ma; from 2.2 to 1.7 Ma, there was a reduction in the charging of hydrocarbon fluid and steadily increasing excess pressure; during the 1.7–0.9 Ma period a large amount of hydrocarbon was generated, excess pressure increasing significantly and hydraulic fractures forming in mudstones, With gas reservoirs developing in structural highs; since 0.9 Ma, CO2‐rich hydrothermal fluid accumulated in reservoirs adjacent to faults and the pressure coefficient remained stable. The research results are helpful in the study of fluid migration and accumulation mechanisms in overpressure basins. [ABSTRACT FROM AUTHOR]

Published

2023

3. Initiation and evolution of fault‐controlled slope‐parallel submarine channels: Miocene eastern slope of Yinggehai Basin, South China Sea.

Author

Wang, Zhen, Xian, Benzhong, Liu, Jingyan, Khan, Majid, Fan, Caiwei, Li, Hui, Wang, Junhui, Zhang, Ximeng, Liu, Jianping, Chen, Peng, Wu, Qianran, and Zhang, Wenmiao

Subjects

LEVEES, MIOCENE Epoch, SEDIMENT transport, TURBIDITY currents, FAULT zones, ION channels

Abstract

Submarine channels act as the main conduits for the transport of sediment to deep‐water basins by sediment gravity flows. The interplay between fault‐related deformation and the initiation and development of the channels is poorly known. Here, we present the identification, formation and evolution of the Miocene slope‐parallel channel by employing 3D seismic reflection, wireline‐log and core data in the eastern slope of Yinggehai Basin, South China Sea. Based on the lengths and plan‐view shapes, a total of three different types of fault‐associated slope‐parallel depressions have been identified. The depressions were formed in the fault zone and controlled by the reactivation of the underlying older faults. Among them, Type‐1 depressions are short (<20 km) oval or circle shaped possessing only one depocenter. Type‐2 depressions are elongated (25–70 km), and usually have multiple depocenters. Type‐3 depressions, which are usually connected by slope‐perpendicular channels in the head and middle, are longer (more than 190 km) and connect shallow and deep‐water basins. The analysis of morphology, erosivity and material transport shows that Type‐3 depressions are fully fledged channels. Type‐1 and Type‐2 depressions are channel precursors representing the initial stage of channel evolution. With this motive, a model for the initiation and evolution of slope‐parallel submarine channels controlled by strike‐slip‐extensional faults is presented. Unlike the previous investigations which suggest that erosion takes place at the inception of submarine channel formation, the fault‐controlled slope‐parallel channel is mainly controlled by faulting and has no initial erosive base and does not develop levees. The depressions are extended and elongated by the continuous fault activity. It was not until the slope‐parallel depression connected with large‐scale slope‐perpendicular channels transporting materials into the depression via erosive turbidity currents that it evolved into a channel‐levee system. This study is of global importance for understanding submarine channel generation and evolution since the fault‐controlled slope‐parallel channels have been found in tectonic active basins worldwide. [ABSTRACT FROM AUTHOR]

Published

2023

4. Genesis and Characteristics of Miocene Deep‐water Clastic Rocks in Yinggehai and Qiongdongnan Basins, Northern South China Sea.

Author

FAN, Caiwei, XU, Changgui, and XU, Jie

Subjects

*CLASTIC rocks, *MIOCENE Epoch, *MARINE debris, *HEAVY minerals, *CONTINENTAL slopes, *RIFTS (Geology), *FLYSCH

Abstract

Various deep‐water deposits developed in the Yinggehai Basin and Qiongdongnan Basin (Ying‐Qiong Basin) in the northern South China Sea, making the two basins significantly hydrocarbon‐producing areas and ideal for studying the genetic mechanism and sedimentary characteristics of deep‐water clastic rocks. Using cores, image well logging, heavy mineral assemblages, and seismic data, we thoroughly studied the geometry, tectonic background, driving mechanism, and source‐to‐sink process of deep‐water deposits in the study area. The results showed that: (1) there were five genetic mechanisms of deep‐water clastic rock, i.e., slides, slumps, debris flows, turbidity currents, and bottom currents. (2) The sliding deposits were distributed from the delta front to the continental slope toe. The slumping deposits were mainly distributed at the continental slope toe or the basin's central area, far from the delta front. The turbidity deposits were widely developed in the deep‐water area, but with huge differences in thickness. The bottom currents mainly reworked previous deposits far from the slope. (3) Slip and extension along the preexisting fault zone were the main structural factors that drive the axial channel formation at the slope foot. (4) The sand‐rich gravity sediment flows in the Ying‐Qiong basin were primarily caused by the direct supply of terrigenous debris into the marine environment over the slope break. [ABSTRACT FROM AUTHOR]

Published

2021

5. Low basal friction‐controlled geometry and kinematics of accretionary wedges from analogue experiments.

Author

Deng, Bin, Fan, Caiwei, He, Yu, Lai, Dong, Jiang, Ziran, Wang, Xinjian, Liu, Shugen, Jansa, Luba, and Li, S.

Subjects

*KINEMATICS, *WEDGES, *SAND, *GLASS beads, *GRANULAR materials, *DISPLACEMENT (Mechanics), *COHESION

Abstract

Cohesion and friction coefficients are fundamental parameters of granular materials used in analogue experiments. Our six models, comprising two sets of quartz sand with a 0–3 mm thickness of basal glass beads, illustrate that accretionary wedges with high basal friction have relatively larger slope angles and heights, shorter wedge lengths, and larger numbers of faults with smaller spacings and displacements than wedges with low basal friction. It should be noted that the differences in the geometry and evolution of the two sets of homogeneous quartz sands are not distinct; however, the differences are substantial when the models have low basal friction of the glass beads. In particular, there are two different tendencies of growth in wedge height with progressive shortening, that is, progressive growth of wedge height with high basal friction and steady‐state growth of wedge height with basal glass beads. We thus infer that the wedge geometries in our experiments are preferentially controlled by the low basal friction achieved with glass beads. In particular, the basal décollement (even when thin) has a significant influence on the location and development of accretionary wedges, in contrast to the physical properties of brittle materials (e.g., friction coefficient and cohesion). [ABSTRACT FROM AUTHOR]

Published

2020

6. Photocatalyst-Free and Blue Light-Induced RAFT Polymerization of Vinyl Acetate at Ambient Temperature.

Author

Ding, Chunlai, Fan, Caiwei, Jiang, Ganquan, Pan, Xiangqiang, Zhang, Zhengbiao, Zhu, Jian, and Zhu, Xiulin

Subjects

*POLYMERIZATION, *VINYL acetate, *MOLECULAR weights, *PHOTOCATALYSTS, *NUCLEAR magnetic resonance

Abstract

Vinyl acetate is polymerized in the living way under the irradiation of blue light-emitting diodes (LEDs) or sunlight without photocatalyst at ambient temperature. 2-(Ethoxycarbonothioyl)sulfanyl propanoate is exclusively added and acts as initiator and chain transfer agent simultaneously in the current system. Poly(vinyl acetate) with well-regulated molecular weight and narrow molecular weight distribution (Ð < 1.30) is synthesized. Near quantitative end group fidelity of polymer is demonstrated by nuclear magnetic resonance (NMR) and matrix-assisteed laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS). [ABSTRACT FROM AUTHOR]

Published

2015

7. A Straightforward Method for Preparing Well-Defined Responsive Diselenide-Containing Polymers Based on ATRP.

Author

Fan, Caiwei, Ding, Chunlai, Pan, Xiangqiang, Zhang, Zhengbiao, Zhu, Jian, and Zhu, Xiulin

Subjects

*POLYMERIZATION, *ATOM transfer reactions, *SELENIDES, *SELENIUM compounds synthesis, *SODIUM compounds, *STYRENE

Abstract

Diselenide-containing polymers are facilely synthesized from polymers prepared by atom transfer radical polymerization (ATRP). Benefiting from the ATRP technology, this protocol provides a flexible route for controlling the polymer structure, which allows for a great variety of architectures of selenium-containing polymer materials for applications in various fields. The oxidative and reductive responsive behavior of the obtained diselenide-containing polymers is also investigated. [ABSTRACT FROM AUTHOR]

Published

2015