Kop: Amirullah Ubhara Surabaya
Amirullah Ubhara Surabaya - You have just sent a payment to Intelligent Networks and Systems Society for invoice 0355.
Amirullah Ubhara Surabaya - You've just sent a payment to Intelligent Networks and Systems Society for invoice 0355
Amirullah Ubhara Surabaya
Subject: Amirullah Ubhara Surabaya - You just sent a payment to Intelligent Networks and Systems Society for invoice 0355. Subject: Fwd: Amirullah Ubhara Surabaya - You just sent a payment to Intelligent Networks and Systems Society for invoice 0355.
Amirullah Ubhara Surabaya
Comparative Performance of Mitigation Voltage Sag/Swell and Harmonics Using DVR-BES-PV System With MPPT-Fuzzy Mamdani/MPPT-Fuzzy Sugeno
- Introduction
- Reseach Method 1. Proposed Method
- Modelling of PV Array
- Voltage Sag/Swell
- MPPT-FM and MPPT-FS
- Result and Discussion
- Conclussion
13 present the performance of sag and swell stress using DVR-BES-PV with MPPT-FM/MPPT-FS. 15 shows the percentage of load voltage drop and load voltage rise in nine disturbance scenarios using a DVR-BES-PV system with MPPT-FM/MPPT-FS. The MPPT-FM can produce a smaller percentage of sag stress than MPPT-FS.
18 shows the performance of the average THD of the load voltage under nine voltage drop disturbance scenarios using the DVR-BES-PV system with MPPT-FM/MPPT-FS. The MPPT-FM method can result in an average THD of the load voltage higher than the MPPT-FS method. The MPPT-FM method can result in an average THD of the load voltage that is smaller than the MPPT-FS method.
The MPPT-FM is capable of producing a smaller percentage of sink/swell voltage than the MPPT-FS. In case voltage, MPPT-FM is able to result in an average THD of load voltage THD higher than MPPT-FS. Otherwise, MPPT-FM in swell voltage is able to result in an average THD of load voltage that is smaller than MPPT-FS.
ISSN2185-3118
International Journal of Intelligent Engineering and Systems (IJIES)
Informatics Engineering Study Program, Faculty of Engineering, University of
Correction of Paper Format
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I have tried to edit false phrases in abstract adjusted to the paper title for example
For your comment….There are many editing problems….I would be happy if you show more specifically the false editing of words or sentences so I can fix them
For your comment….There are a lot of editing problems….I would appreciate it if you could show the false editing of words or sentences more clearly so that I can correct them.
Abstract in my paper consists of three parts
In abstract, I add the results in number results (% voltage sag/swell and % harmonics/THD) to explain briefly the general results
The fuzzy inference system (FIS) used in this paper are FM and FS respectively. Both methods are proposed and compared as MPPT control on PV panel which connected to
20 describes the concept of Total Harmonics Distortion (THD) and its equation as a parameter for measuring harmonic values generated by sink/swell and source-side harmonic disturbances (J. Arrilaga, B.C. Smith, N.R. Watson and A.R. Wood). Equation Editor (such as Microsoft Equation 3.0) was included in previous versions of Word, but has been removed from all versions that have installed the January 2018 Public Update (PU). 18 to analyze the percentage of voltage drop/swell results in this paper….Using Matlab/Simulink, the model is then run based on desired scenario to obtain source Using Matlab/Simulink, the model is then run based on desired scenario to obtain source.
I have used Ref. 20 to analyze and determine THD of load voltage results in this paper…
X axis is a label for horizontal axis (not title of figure)
I revised the width and font size of tables 3 and 4 from 8 pt (before the revision) to 10 pt (after the revision).
In Table 3
In Table 4
I have revised the model and width of Fig. 12 from horizontal to vertical model, in order to reduce the width of table
I have revised the model and width of Fig. 13 from horizontal to vertical model, in order to reduce the width of table
Explaination of comparation data for voltage sag using MPPT-FM/MPPT-FS is showed in Fig 12 and Table (Please see paragraph 4 section 3-red font)
Explaination of comparation data for voltage swell using MPPT-FM/MPPT-FS is showed in Fig 13 and Table (Please see paragraph 5 section 3-red font)
12] (Amirullah, A. Kiswantono, O. Penangsang, Adi Soeprijanto, 2018….) in the revised paper as an additional reference to explain the novelties in this paper (Prosim 2018….) in the revised paper as an additional reference to explain the novelties in this paper (See paragraph 5 in the introduction/Section 1 ... red font).
I also have sorted all the references Ref. [1-22] based on the order in which they appear in this paper
Thanks a lot for your constructive comments
We are appreciate for your kind guidance and valuable advices
- MPPT-FM and MPPT-FS
In nine pocket/swell disturbances scenario, MPPT-FM is able to provide better performance in percent pocket/swell on load voltage than MPPT-FS. In voltage sag, MPPT-FM is able to result in an average Total Harmonic Distortion (THD) of load voltage higher than MPPT-FS. Otherwise, MPPT-FM may cause an average THD load voltage smaller than MPPT-FS, in voltage swell.
The MPPT-FM/MPPT-FS helps the single-phase PV to generate the MPP in the output of the DVR-BES-PV system. The DVR-BES-PV system circuit combination with the MPPT-FM/MPPT-FS method is used to maintain the voltage on the sensitive load bus. MPPT-FM can produce a smaller percentage of voltage drop than MPPT-FS.
The MPPT-FM method is able to result in a smaller percentage of voltage fluctuations than the MPPT-FS. 18 shows the performance of an average THD of load voltage in nine voltage drop disturbance scenarios using DVR-BES-PV system with MPPT-FM/MPPT-FS. 18 shows that in the 3P3W system using DVR-BES-PV with MPPT-FM/MPPT-FS method, the higher the percentage drop of voltage drop on the source bus, then the average THD of the load voltage is also higher.
Conclusion
Harmonic load voltage spectra on phase A for 90% droop using DVR-BES-PV with MPPT-FS. The average THD of the load voltage using MPPT-FM/MPPT-FS under nine source bus swelling voltage disturbances is smaller than the voltage drop and its value has reached the limits prescribed in IEEE 519. International Journal of Intelligent Engineering and Systems, Vol. .x, No.x, 20xx DOI: 10.22266/ijies2017.xxxx.xx MPPT on PV connected to DVR-BES system is.
Thangavel, “Photovoltaic based dynamic voltage restorer with energy saving capability using fuzzy logic controller”, in: Proc. Power management of dynamic voltage restorers used for voltage drop and unbalance compensation”, In: Proc. Tumay, “A fast droop/swell detection method for fuzzy logic controlled dynamic recovery voltage,” IET Generation, Transmission and Distribution, Vol.
International Journal of Intelligent Engineering and Systems, Vol.x, No.x, 20xx DOI: 10.22266/ijies2017.xxxx.xx Advanced Computing Technologies, Vellore,. Kiswantono, “Power quality improvement of integration photovoltaic generator to grid under variable solar irradiance level using MPPT-Fuzzy”, International Journal of Electrical and Computer Engineering, Vol. Design and Simulation of Unified Power Quality Conditioner Powered by Solar Energy”, International Journal of Hydrogen Energy Vol.
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After submission of this agreement signed by the respective author, changes in authorship or in the order of listed authors will not be accepted. Sag/swell and harmonics using DVF--BES-PV system with MPPT-Fuzzy Mamdani/ MPPT-Fuzzy Suge4o. Comparative performance of damping voltage sag/swell and harmonics using DVR-BES-PV system with MPPT-Fuzzy Mamdani/MPPT-Fuzzy Sugeno.
Comparative Performance of Mitigation Voltage Sag/Swell and Harmonics Using DVR-BES-PV System with MPPT-Fuzzy Mamdani/MPPT-Fuzzy Sugeno
Research method 1 Proposed method
- Voltage sag/swell
- MPPT-FM and MPPT-FS
The analysis of the proposed model is investigated by determining nine scenarios of dip/swell disturbances on the source bus in a 3P3W system using DVR-BES-PV. DVR-BES-PV system combination using MPPT-FM/MPPT-FS is installed on 3P3W system to maintain constant voltage in sensitive load. 𝑃 (1) Where IPV is the photovoltaic current, Io is the saturated reverse current, 'a' is the ideal diode constant, Vt = NSKTq-1 is the thermal voltage, NS is the number of cells in series, q is the electron charge, K is the Boltzmann constant, T is the temperature p–.
KI is the ratio of short-circuit current to temperature, ∆T = T - Tn is the temperature deviation from the standard temperature, G is the light intensity, and KV is the ratio of open-circuit voltage to temperature. The main function of the active series filter is to sensitively protect the load against a number of voltage disturbances on the source bus. This standard presents the definition and table of the basis of voltage sag/damage by category (instantaneous, momentary, temporary), typical duration and typical magnitude.
The input MFs of MPPT-FM and MPPT-FS are the same in Max-Min, but output MFs of them are different. The delta voltage and delta power for MPPT-FM/MPPT-FS are shown in Fig. showed. After determining ΔV and ΔP, both are converted into linguistic variables and used as input functions for MPPT-FM/MPPT-FS.
![Fig. 3 shows the equivalent circuit of a solar panel. A solar panel is composed by several PV cells that have series, parallel, or series-parallel external connections [13]](https://thumb-ap.123doks.com/thumbv2/123dok/10819669.0/89.892.468.810.116.354/equivalent-circuit-composed-series-parallel-parallel-external-connections.webp)
Result and discussion
The average THD of the load voltage using MPPT-FM/MPPT-FS in the scenario with nine surge voltage disturbances on the source bus is less than the voltage drop and its value has already reached the limits prescribed in IEEE 519. 16 Harmonic load voltage spectra on phase A for 90% decline using DVR-BES-PV with MPPT-FM. 17 Harmonic load voltage spectra on phase A for 90% droop using DVR-BES-PV with MPPT-FS.
18 shows the performance of the average THD of the load voltage in nine scenarios of voltage drop disturbances using the DVR-BES-PV system with MPPT-. Figure 19 shows that in the 3P3W system using DVR-BES-PV with the MPPT-FM/MPPT-FS method, the higher the percentage of source bus voltage increase is, the higher the average THD of the load voltage is. MPPT-FM can produce a smaller percentage of voltage drop/swell than MPPT-FS.
Under voltage sag, MPPT-FM can provide an average THD of the load voltage THD that is higher than MPPT-FS. The average THD of the load voltage using MPPT-FM/MPPT-FS in nine scenarios with voltage rise disturbances on the source bus is smaller than the voltage drop. Nevertheless, the average THD of the load voltage in a 90% sag (deep voltage drop) scenario using MPPT-FM/MPPT-FS has exceeded the limit prescribed in IEEE 519.
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