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Your search keyword '"Chan, V. S."' showing total 294 results
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294 results on '"Chan, V. S."'

1. Development of CFETR scenarios with self-consistent core-pedestal coupled simulations

Author

Deng, Zhao, Lao, L. L., Chan, V. S., Prater, R., Li, J., Chen, Jiale, Jian, X., Shi, N., Meneghini, O., Staebler, G. M., Liu, Y. Q., Turnbull, A. D., Candy, J., Smith, S. P., Snyder, P. B., and team, CFETR physics

Subjects
Physics - Plasma Physics
Abstract

This paper develops two non-inductive steady state scenarios for larger size configuration of China Fusion Engineering Test Reactor (CFETR) with integrated modeling simulations. A self-consistent core-pedestal coupled workflow for CFETR is developed under integrated modeling framework OMFIT, which allows more accurate evaluation of CFETR performance. The workflow integrates equilibrium code EFIT, transport codes ONETWO and TGYRO, and pedestal code EPED. A fully non-inductive baseline phase I scenario is developed with the workflow, which satisfies the minimum goal of Fusion Nuclear Science Facility. Compared with previous work, which proves the larger size and higher toroidal field CFETR configuration than has the advantages of reducing heating and current drive requirements, lowering divertor and wall power loads, allowing higher bootstrap current fraction and better confinement. A fully non-inductive high-performance phase II scenario is developed, which explores the alpha-particle dominated self-heating regime. Phase II scenario achieves the target of fusion power Pfus>1GW and fusion gain Qfus>20, and it largely reduces auxiliary heating and current drive power. Moreover, the large neutron production of phase II increases the energy generation power and tritium breeding rate.

Published
2019

3. Experimental Validation of a Kinetic Ballooning Mode in High-Performance High-Bootstrap Current Fraction Fusion Plasmas

Author

Jian, X., primary, Chen, J., additional, Ding, S., additional, Garofalo, A., additional, Gong, X., additional, Holland, C., additional, Huang, J., additional, Chan, V. S., additional, Qin, X., additional, Yu, G., additional, Ma, R. R., additional, Du, X., additional, Hong, R., additional, Staebler, G., additional, Wang, H., additional, Yan, Z., additional, Bass, E., additional, Brower, D., additional, Ding, W., additional, and Orlov, D., additional

Published
2023
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5. The Key Criteria in Deciding to Tender for Construction Projects

Author

Bohari, A. A. M., Ikau, R. A., Budin, H., Hadi, N. A., Chan, V. S. L., Bohari, A. A. M., Ikau, R. A., Budin, H., Hadi, N. A., and Chan, V. S. L.

Abstract

Planning for a construction project is a formidable task which involves a huge investment with multiple stakeholders such as clients, consultants, and contractors. A tender is a submission of a technical, administrative, and contractual material made by a potential contractor in response to an invitation to tender by the project client. Established contractors normally realise the importance of doing initial research before committing themselves to enter the tender. Normally, tender pre-qualification is a strict process. A low-quality tender submitted due to problems such as insufficient time and incomplete tender documents normally lead to tender rejection by the client. Thus, this research aimed to provide a strategy to help the contractors in deciding whether they should or should not submit a tender at the initial tendering decision phase. The literature review was focused on the key factors identified in influencing the decision-making process and in the final part, the initial conceptual model was established

Published
2021

12. Promising High-Confinement Regime for Steady-State Fusion

Author

Xu, G. S., primary, Yang, Q. Q., additional, Yan, N., additional, Wang, Y. F., additional, Xu, X. Q., additional, Guo, H. Y., additional, Maingi, R., additional, Wang, L., additional, Qian, J. P., additional, Gong, X. Z., additional, Chan, V. S., additional, Zhang, T., additional, Zang, Q., additional, Li, Y. Y., additional, Zhang, L., additional, Hu, G. H., additional, and Wan, B. N., additional

Published
2019
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20. Integrated modeling of plasma ramp-up in DIII-D ITER-like and high bootstrap current scenario discharges.

Author

Wu, M. Q., Pan, C. K., Chan, V. S., Li, G. Q., Garofalo, A. M., Jian, X., Liu, L., Ren, Q. L., Chen, J. L., Gao, X., Gong, X. Z., Ding, S. Y., Qian, J. P., and CFETR Physics Team

Subjects
PLASMA flow, TURBULENCE, PLASMA currents, CURRENT density (Electromagnetism), STARK effect
Abstract

Time-dependent integrated modeling of DIII-D ITER-like and high bootstrap current plasma ramp-up discharges has been performed with the equilibrium code EFIT, and the transport codes TGYRO and ONETWO. Electron and ion temperature profiles are simulated by TGYRO with the TGLF (SAT0 or VX model) turbulent and NEO neoclassical transport models. The VX model is a new empirical extension of the TGLF turbulent model [Jian et al., Nucl. Fusion 58, 016011 (2018)], which captures the physics of multi-scale interaction between low-k and high-k turbulence from nonlinear gyro-kinetic simulation. This model is demonstrated to accurately model low Ip discharges from the EAST tokamak. Time evolution of the plasma current density profile is simulated by ONETWO with the experimental current ramp-up rate. The general trend of the predicted evolution of the current density profile is consistent with that obtained from the equilibrium reconstruction with Motional Stark effect constraints. The predicted evolution of β N , l i , and β P also agrees well with the experiments. For the ITER-like cases, the predicted electron and ion temperature profiles using TGLF_Sat0 agree closely with the experimental measured profiles, and are demonstrably better than other proposed transport models. For the high bootstrap current case, the predicted electron and ion temperature profiles perform better in the VX model. It is found that the SAT0 model works well at high I P (>0.76 MA) while the VX model covers a wider range of plasma current ( I P > 0.6 MA). The results reported in this paper suggest that the developed integrated modeling could be a candidate for ITER and CFETR ramp-up engineering design modeling. [ABSTRACT FROM AUTHOR]

Published
2018
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21. Development of CFETR Integration Design Platform: Modular Structure.

Author

Ye, M. Y., Wang, S. J., Mao, S. F., Wang, Z. W., Xu, G. L., Liu, X. F., Zhang, J. W., and Chan, V. S.

Subjects
FUSION reactors, TOKAMAKS, PHYSICS, ENGINEERING design, MODULAR construction
Abstract

China fusion engineering test reactor (CFETR) is now in the conceptual design phase. The main objective of CFETR is demonstration of fusion energy with 50 ~ 200 MW fusion power, fuel cycle of T self-sustained and steady-state operation with duty cycle of 0.3 ~ 0.5. The design of CFETR involves complex system structure, and there are complex constrains between physics and engineering. Between optimization of performance parameters and design of main structure and key components, numerous data exchange and iterative optimization are necessary for optimal design of subsystems. To do the optimization design, the CFETR integration design platform is under development. The main technical schemes for it include: a physical design platform and various engineering design modules are developed, then a global framework integrates them by standard interfaces and communication technologies; and a standard material and design criterion database unifies the reference data for the integration platform. The detailed study will be presented in this paper. [ABSTRACT FROM PUBLISHER]

Published
2017
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30. Fusion Nuclear Science Facility Candidates

Author

Stambaugh, R. D., primary, Chan, V. S., additional, Garofalo, A. M., additional, Sawan, M., additional, Humphreys, D. A., additional, Lao, L. L., additional, Leuer, J. A., additional, Petrie, T. W., additional, Prater, R., additional, Snyder, P. B., additional, Smith, J. P., additional, and Wong, C. P. C., additional

Published
2011
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33. Physics Basis of a Fusion Development Facility Utilizing the Tokamak Approach

Author

Chan, V. S., primary, Stambaugh, R. D., additional, Garofalo, A. M., additional, Chu, M. S., additional, Fisher, R. K., additional, Greenfield, C. M., additional, Humphreys, D. A., additional, Lao, L. L., additional, Leuer, J. A., additional, Petrie, T. W., additional, Prater, R., additional, Staebler, G. M., additional, Snyder, P. B., additional, John, H. E. St., additional, Turnbull, A. D., additional, Wong, C. P. C., additional, and Van Zeeland, M. A., additional

Published
2010
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