J. Morren, S. de Haan, W. Kling and J. Ferreira, “Wind Turbines Emulating Inertia and Supporting Primary Frequency Control,” IEEE Transactions on Power Systems, Vol. 21, No. 1, 2006, pp. 433-434.doi10.1109/TPWRS.2005.861956 - References

Browse Menu >>

Browse Subjects >>

Computer Science & Communications

Earth & Environmental Sciences

Social Sciences & Humanities

Why Us? >>

- Open Access
- Peer-reviewed
- Rapid publication
- Lifetime hosting
- Free indexing service
- Free promotion service
- More citations
- Search engine friendly

Free SCIRP Newsletters>>

Add your e-mail address to receive free newsletters from SCIRP.

Contact Us >>

customer@scirp.org

+86 18163351462(WhatsApp)

1655362766

Paper Publishing WeChat

Book Publishing WeChat

(or Email:book@scirp.org)

Article citations
More>>

J. Morren, S. de Haan, W. Kling and J. Ferreira, “Wind Turbines Emulating Inertia and Supporting Primary Frequency Control,” IEEE Transactions on Power Systems, Vol. 21, No. 1, 2006, pp. 433-434. doi:10.1109/TPWRS.2005.861956

has been cited by the following article:

TITLE: A Virtual Synchronous Machine to Support Dynamic Frequency Control in a Mini-Grid That Operates in Frequency Droop Mode

AUTHORS: Miguel Torres, Luiz A. C. Lopes

KEYWORDS: Frequency Control; Mini-Grid; Inverter; Virtual Synchronous Machine

JOURNAL NAME: Energy and Power Engineering, Vol.5 No.3, May 13, 2013

ABSTRACT: This paper addresses the problem of dynamic frequency control in a diesel-based mini-grid. It is shown that a virtual synchronous machine (VSM) can support dynamic frequency control by adding virtual inertia and damping to the system. However, it is found that the typical formulation of damping power does not work properly when the grid forming gen-set operates in droop mode because of the unknown stabilization value of the grid frequency. As a solution to this problem, an estimator for the stabilization frequency that works in conjunction with the damping function of the VSM is proposed. Theoretical and experimental results provide evidence of a satisfactory performance of the proposed VSM with estimator for different values of the gen-set droop factor. The estimated stabilization frequency converges in approximately 2 s and the maximum frequency deviation during the transient is reduced in 34%, on average.