Loading...
| Friend's email | |
| Your name | |
| Your email | |
| enter code | |
This page was sent successfuly
Control of an Islanded Multi-DG Microgrid under Unbalanced and Nonlinear Loads Conditions
Hamzeh, Mohsen | 2013
2914
Viewed
- Type of Document: Ph.D. Dissertation
- Language: Farsi
- Document No: 44131 (05)
- University: Sharif University of Technology
- Department: Electrical Engineering
- Advisor(s): Mokhtari, Hossein; Karimi, Houshang
- Abstract:
- Nowadays, the use of distributed generation (DG) units and microgrid systems is mainly limited to their operation in the grid-connected mode. In the grid-connected mode, a microgrid including its loads and DG units is connected to the main grid at the point of common coupling (PCC). In this case, the main grid provides fixed voltage and frequency for the microgird and each DG unit regulates its power components based on the conventional dq-current control strategy. Autonomous (islanded) operation of a microgrid, however, is not as straightforward as its operation in the grid-connected mode, i.e., control and power management of an islanded microgrid is very difficult due to the stochastic nature of the renewable energy sources that act as the prime movers for the DG units. A robust control strategy is presented for the general case of unknown load model, i.e., the load is assumed to be parametrically and topologically unknown. Therefore, there are unmodeled dynamics in the microgrid model. To regulate the reference voltage, a control strategy is presented. the controller has PR structure and the optimal parameters of this controller are obtained using of PSO algorithm. New droop-characteristics are presented to improve the performance of the microgrid in terms of power sharing, voltage regulation, dynamic and transient responses, reduces the reactive power sharing dependency on real power and system parameters, and smoothes the system’s dynamic and transient responses. This work has developed the modeling, control parameters design, and power-sharing control starting from a simplified small signal model of a single voltage source inverter to a number of interconnected DG units forming a flexible microgrid. The proposed control scheme of each DG unit consists of a multi proportional resonance controller (MPRC) with adjustable resonance frequency, a droop strategy, a harmonic impedance controller (HIC), and a virtual negative-sequence impedance controller (VNSIC). The MPRC and droop strategies are, respectively, used to regulate the load voltage and share the average powers among the DG units. The HIC and VNSIC are proposed to effectively share the harmonic and negative-sequence currents of the nonlinear and unbalanced loads among the DG units. The presented strategy reduces the harmonic and negative-sequence currents in the MV lines and thus, improving the power quality of the MG. The performance of the proposed control scheme is verified by using digital time-domain simulation studies in the PSCAD/EMTDC software environment. Moreover, this thesis presents control of a MV microgrid considering multi-hybrid distributed generation systems (MHGS) and renewable energy resources. To guarantee excellent power management, a modular power conversion system is realized by parallel connection of small MHPCS units. The hybrid system includes fuel cells (FC) as main and supercapacitors (SC) as complementary power sources. The SC energy storage compensates the slow transient response of the FC stack and supports the FC to meet the grid power demand. The proposed control strategy of the MHPCS comprises three control loops; dc-link voltage controller, power management
- Keywords:
- Microgrid ; Voltage Control ; Nonlinear Load ; Dispersed Generation ; Proportional-Resonance (PR)Controller ; Droop Method ; Unbalance Loads ; Vitual Negative-Sequence Impedance
Digital Object List
-
محتواي کتاب
- view
Bookmark
- مقدمه
- تعريف مساله
- توليد پراکنده و ريزشبکه
- ساختار ريزشبکه و تفاوتهاي آن با شبکههاي توزيع برق معمول
- چالشهاي مهم ريزشبکه
- اهداف و رويکردهاي رساله
- ساختار رساله
- کنترل غيرمتمرکز ولتاژ ريزشبکه در حضور بارهاي نامتعادل و غيرخطي
- مقدمه
- پيشينه تحقيقات
- ساختار منبع توليد پراکنده کانورتري جهت اتصال به شبکه ولتاژ متوسط
- مدلسازي اينورتر منبع ولتاژ
- طراحي کنترلکننده ولتاژ غيرمتمرکز
- کنترلکنندهي تناسبي-رزونانسي
- فرمولبندي رياضي کنترلکنندهي رزونانسي پيشنهادي
- نتايج شبيهسازي ريزشبکه با کنترل ولتاژ رزونانسي پيشنهادي
- نتيجهگيري
- بهبود عملکرد سيستم تقسيم توان غيرمتمرکز ريزشبکه
- مقدمه
- بررسي پيشينه تحقيقات و ارائه راهکار
- مروري بر روش متعارف دروپ
- مدل سيگنال کوچک يک ريزشبکه در حالت جزيرهاي
- مدل سيگنال کوچک ساده شدهي مبدل منبع ولتاژ
- کنترل دروپ پيشنهادي براي سيستم تقسيم توان
- تعيين ضرايب ديناميکي مشخصههاي دروپ
- نتايج شبيهسازي سيستم ريزشبکه با استفاده از کنترل دروپ اصلاح شده
- بهبود عملکرد کنترل دروپ با استفاده از حلقه امپدانس مجازي
- نتايج شبيهسازي
- مديريت توان راکتيو ريزشبکه
- شرح روش پيشنهادي: کنترل دروپ خودتنظيم شونده
- نتايج شبيهسازي
- بازيابي ولتاژ و فرکانس ريزشبکه جزيره شده
- نتايج شبيهسازي
- نتيجهگيري
- مديريت تقسيم توان ريزشبکه در حضور بارهاي نامتعادل و غيرخطي
- مقدمه
- بررسي پيشينه تحقيقات
- مديريت تقسيم توان بارهاي نامتعادل ريزشبکه
- روش پيشنهادي اول: کنترل مستقيم مؤلفه منفي سيگنال کنترلي
- روش پيشنهادي دوم: کنترل امپدانس مجازي مؤلفه منفي اينورتر
- مديريت تقسيم توان بارهاي غيرخطي ريزشبکه در حالت جزيرهاي
- نتايج شبيهسازي
- نتيجهگيري
- کنترل و مديريت واحد توليد انرژي منبع توليد پراکنده
- مقدمه
- پيشينه تحقيقات منابع ترکيبي توليد انرژي
- پيکربندي سيستم ترکيبي پيل سوختي/ ابرخازن
- توصيف سيستم پيل سوختي و مدلسازي آن
- مدلسازي سيستم پيل سوختي
- ابرخازن
- مدلسازي ابرخازن
- استراتژي کنترلي پيشنهادي جهت مديريت توان سيستم توليد پراکنده ترکيبي
- طراحي کنترلکننده براي سيستم توليد توان پيل سوختي و ابرخازن
- ساختار سيستم ترکيبي چندتايي
- نتايج شبيهسازي
- شبيهسازي اول: تغييرات بار متعادل
- شبيهسازي دوم: تغييرات بار نامتعادل
- نتيجهگيري
- نتيجهگيري و پيشنهادات
- نوآوريهاي رساله
- پيشنهادات
- مقالات مستخرج از رساله
- مقالات ژورنال
- مقالات کنفرانس
- ?????