DETAIL KOLEKSI

Analisa tekno-ekonomi smart solar dryer dome untuk pertanian dengan kombinasi sumber energi


Oleh : Kintan Salsabila Irawan

Info Katalog

Penerbit : FTI - Usakti

Kota Terbit : Jakarta

Tahun Terbit : 2024

Pembimbing 1 : Maula Sukmawidjaya

Pembimbing 2 : Dianing Novita Nurmala Sari

Subyek : ENERGY - SOLAR

Kata Kunci : Smart Solar Dryer Dome, Techno-Economic Analysis, Combination Energy Sources, Homer Pro

Status Posting : Published

Status : Lengkap


File Repositori
No. Nama File Hal. Link
1. 2024_SK_STE_062002204017_Halaman-Judul.pdf 11
2. 2024_SK_STE_062002204017_Surat-Pernyataan-Revisi-Terakhir.pdf 1
3. 2024_SK_STE_062002204017_Surat-Hasil-Similaritas.pdf 1
4. 2024_SK_STE_062002204017_Halaman-Pernyataan-Persetujuan-Publikasi-Tugas-Akhir-untuk-Kepentingan-Akademis.pdf 1
5. 2024_SK_STE_062002204017_Lembar-Pengesahan.pdf 1
6. 2024_SK_STE_062002204017_Pernyataan-Orisinalitas.pdf 1
7. 2024_SK_STE_062002204017_Formulir-Persetujuan-Publikasi-Karya-Ilmiah.pdf 1
8. 2024_SK_STE_062002204017_Bab-1-Pendahuluan.pdf 5
9. 2024_SK_STE_062002204017_Bab-2-Landasan-Teori.pdf
10. 2024_SK_STE_062002204017_Bab-3-Metodologi-Penelitian.pdf
11. 2024_SK_STE_062002204017_Bab-4-Analisis-dan-Pembahasan.pdf
12. 2024_SK_STE_062002204017_Bab-5-Kesimpulan-dan-Saran.pdf 2
13. 2024_SK_STE_062002204017_Daftar-Pustaka.pdf 3
14. 2024_SK_STE_062002204017_Lampiran.pdf

D Dalam menganalisis performa sistem smart solar dryer dome (SSDD) dapatdianalisis salah satunya dengan nilai suhu dan kelembapan yang terjaga. Untukproses pengeringan komoditi kopi, nilai target suhu sebesar 40°C dengan nilaitarget kelembapan kurang dari 60%. Dibutuhkan sistem pendistribusian tenagalistrik yang handal dalam menjaga performa komponen sistem SSDD dengankombinasi sumber energi. Dari evaluasi beban kebutuhan dan lokasi penelitiansistem SSDD, dilakukan analisis kombinasi sumber energi yaitu antara sistemeksisting PV/Baterai, dan sistem kombinasi energi PLN/PV/Baterai. Pada sistemkombinasi energi dengan pemanfaatan gas sebagai pendistribusian sumber energicadangan dalam sistem SSDD. Analisis distribusi tenaga listrik dengan kombinasisumber energi antara PV/Baterai dan PV/PLN/Baterai dijelaskan dalam grafikprofil beban, sedangkan sumber energi LPG dalam skenario operasional padasistem. Kemudian, dilakukan tinjauan dengan studi literatur, pengumpulan data,dan pemodelan sistem. Dari hasil pemodelan optimasi perangkat Homer padasistem kombinasi sumber energi diperoleh efisiensi biaya modal sistem sebesar Rp102.960.955,09, nilai LCOE sebesar Rp 827.31,00, dan nilai biaya operasionalsebsar Rp 1.220.000,00. Presentase efisiensi biaya modal sistem sebesar 53%,presentase levelized COE mencapai 62%, presentase biaya operasional mencapai65% dibandingkan dengan sistem eksisting. Pada sistem kombinasi energi denganpemanfaatan gas LPG dapat menjaga kehandalan proses pengeringan ketika kondisimusim penghujan relatif tinggi dan pemadaman listrik wilayah secara bersamaan.Sistem SSDD dapat tetap terjaga dari segi kehandalan dan produktivitas pertanian.

I In analyzing the performance of the smart solar dryer dome (SSDD) system,one can explore the maintained temperature and humidity values. For the dryingprocess for coffee commodities, the target temperature value is 40°C with ahumidity target value of less than 60%. A reliable electrical power distributionsystem with a combination of energy sources is needed to maintain theperformance of SSDD system components. From the evaluation of loadrequirements and research locations for the SSDD system, an energy sourcecombination analysis was carried out, namely between the existing PV/Batterysystem and the PLN/PV/Battery energy combination system. In a combinedenergy system gas is a distribution of reserve energy sources in the SSDDsystem. Analysis of electric power distribution with a combination of energysources between PV/Battery and PV/PLN/Battery is explained in the loadprofile graph, while the LPG energy source is in the system\\\'s operationalscenario. Then, a review was carried out using a literature study, data collection,and system modeling. From the results of optimization modeling of the Homerdevice on a combined energy source system, it was obtained that the capital costefficiency of the system was IDR 102,960,955.09, the LCOE value was IDR827,31.00, and the operational cost value was IDR 1,220,000.00. The systemcapital cost efficiency percentage is 53%, the levelized COE percentage reaches62%, and the operational cost percentage reaches 65% compared to the existingsystem. The combined energy system using LPG gas can maintain the reliabilityof the drying process when the rainy season conditions are relatively high andregional power outages occur simultaneously. The SSDD system can bemaintained in terms of reliability and agricultural productivity.

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