?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=PENENTUAN+KAPASITAS+MAKSIMUM+PLTS+PADA+MICROGRID%0D%0ADENGAN+MEMPERTIMBANGKAN+RAMPING+RATE+GENERATOR%0D%0A%0D%0AKONVENSIONAL&rft.creator=%09Natasya+%2C+Almira%09&rft.subject=600+Teknologi+(ilmu+terapan)&rft.subject=620+Ilmu+teknik+dan+ilmu+yang+berkaitan&rft.description=Microgrid+adalah+sumber+energi+alternatif+untuk+daerah+dengan+sumber+energi%0D%0Aterbarukan+yang+terbatas.+Microgrid+mengintegrasikan+berbagai+Distributed+Energy%0D%0AResource+(DER)+salah+satunya+photovoltaic+(PV).+Sistem+PV+telah+menjadi+pilihan%0D%0Ayang+paling+penting+karena+efisien+dan+kemampuan+untuk+menghasilkan+energi+dari%0D%0Asumber+terbarukan.+Namun%2C+mengintegrasikan+sistem+PV+ke+dalam+microgrid+dapat%0D%0Amenimbulkan+resiko%2C+terutama+ketika+menyesuaikan+kinerja+dan+keandalan+sistem.%0D%0AMaka+dari+itu+ramp+rate+pada+generator+adalah+faktor+penting+lainnya+yang+harus%0D%0Aditangani+untuk+memastikan+operasi+microgrid+yang+stabil.+Jika+kapasitas+PV+tidak%0D%0Ameningkat+dapat+menyebabkan+gangguan+daya+yang+lebih+lama+selama+periode%0D%0Ategangan+tinggi%2C+menyebabkan+pemanasan+berlebih.+Studi+ini+bertujuan+untuk%0D%0Amenentukan+kapasitas+maksimum+PV+di+microgrid+menggunakan+simulasi+Load%0D%0AFrequency+Control+(LFC).+Model+simulasi+mencakup+komponen+seperti+PID%0D%0AController%2C+ramp+rate%2C+area+1+PLTD%2C+area+2+PLTU%2C+dan+PV.+Dua+skenario+digunakan%0D%0Adalam+simulasi%3A+tanpa+menggunakan+ramp+rate+dan+dengan+menggunakan+ramp%0D%0Arate.+Pada+hasil+simulasi%2C+sistem+dapat+mencapai+respons+frekuensi+50Hz%C2%B15%25+sesuai%0D%0Adengan+batas+toleransi+dan+sistem+mampu+menjaga+frekuensi+operasional+dalam%0D%0A48Hz+hingga+52Hz.+Ada+dua+perbedaan+dalam+hasil+simulasi+antara+kedua+skenario%2C%0D%0ALFC+tanpa+ramp+rate+kapasitas+maksimum+PV+yang+dihasilkan+adalah+101.5MW%0D%0Asedangkan+LFC+menggunakan+ramp+rate+kapasitas+maksimum+PV+yang+dihasilkan%0D%0Aadalah+94.25MW.+Perbedaan+tersebut+dikarenakan+jika+generator+tidak+memiliki%0D%0Aramp+rate+maka+kemampuan+generator+lambat+untuk+merespon+adanya+fluktuasi%0D%0Abeban+sehingga+membutuhkan+kapasitas+PV+yang+lebih+besar+dibandingkan+dengan%0D%0Agenerator+yang+terdapat+ramp+rate.%0D%0AKata+kunci%3A+Microgrid%2C+PV%2C+Ramp+Rate%2C+Load+Frequency+Control%2C+Frekuensi%0D%0AMicrogrid+is+an+alternative+source+of+energy+for+regions+with+limited+renewable%0D%0Aenergy+sources.+The+microgrid+integrates+a+variety+of+Distributed+Energy+Resources%0D%0A(DER)%2C+one+of+which+is+photovoltaic+(PV).+PV+systems+have+become+the+most%0D%0Aimportant+choice+due+to+their+efficiency+and+ability+to+generate+energy+from%0D%0Arenewables.+However%2C+integrating+PV+systems+into+microgrids+can+pose+risks%2C%0D%0Aespecially+when+adjusting+system+performance+and+reliability.+Then+from+that+ramp%0D%0Arate+on+the+generator+is+another+important+factor+that+needs+to+be+addressed+to+ensure%0D%0Astable+microgrid+operation.+If+the+PV+capacity+does+not+increase+it+can+cause+longer%0D%0Apower+disruptions+during+high+voltage+periods%2C+causing+overheating.+The+study+aims%0D%0Ato+determine+the+maximum+PV+capacity+in+the+microgrid+using+the+Load+Frequency%0D%0AControl+(LFC)+simulation.+The+simulation+model+includes+components+such+as+PID%0D%0AController%2C+ramp+rate%2C+area+1+PLTD%2C+area+2+PLTU%2C+and+PV.+Two+scenarios+are+used%0D%0Ain+the+simulation%3A+without+using+ramp+rate+and+using+the+ramp+rate.+On+simulation%0D%0Aresults%2C+the+system+can+reach+a+response+frequency+of+50Hz%C2%B15%25+according+to+the%0D%0Atolerance+limit+and+the+system+is+able+to+keep+operating+frequencies+within+48Hz+to%0D%0A52Hz.+There+are+two+differences+in+the+results+of+the+simulations+between+the+two%0D%0Ascenarios%2C+LFC+without+ramp+rate+the+maximum+capacity+PV+generated+is+101.5MW%0D%0Awhereas+LFC+using+the+maximum+PV+yielding+ramp+rate+is+94.25MW.+The%0D%0Adifference+is+because+if+the+generator+does+not+have+ramp+rate+then+the+slow%0D%0Agenerator+ability+to+respond+to+load+fluctuations+requires+a+larger+PV+capability%0D%0Acompared+to+generators+with+which+ramp+rate+exists%0D%0AKeywords%3A+Microgrid%2C+PV%2C+Ramp+Rate%2C+Load+Frequency+Control%2C+Frequency&rft.publisher=TEKNIK&rft.date=2024-07-29&rft.type=Skripsi&rft.type=NonPeerReviewed&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F87674%2F1%2FAbstrak%2520Natasya%2520Almira%2520-%2520Natasya%2520Almira.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F87674%2F2%2FFull%2520Skripsi%2520Natasya%2520Almira%2520tanpa%2520Lampiran%2520-%2520Natasya%2520Almira.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F87674%2F3%2FSkripsi%2520Natasya%2520Almira%2520Tanpa%2520BAB%2520Pembahasan%2520dan%2520Lampiran%2520-%2520Natasya%2520Almira.pdf&rft.identifier=+++Natasya+%2C+Almira+++(2024)+PENENTUAN+KAPASITAS+MAKSIMUM+PLTS+PADA+MICROGRID+DENGAN+MEMPERTIMBANGKAN+RAMPING+RATE+GENERATOR+KONVENSIONAL.++TEKNIK%2C+UNIVERSITAS+LAMPUNG+.+++++&rft.relation=http%3A%2F%2Fdigilib.unila.ac.id%2F87674%2F