Economic Analysis Comparison between Solar Photovoltaic and Diesel Generator for Water Pumping System in an Indonesia Rural Karsts Area

Setiawan, Andi; Ramadhan, Satria Antariksa; Wahyuni, Nur Setyo; Hidayah, Atika Nurul; Arifin, Muhammad Luqman Nur Rouf; Suyatna, Hempri

doi:10.18502/ken.v2i2.351

Cited by 5 publications

(2 citation statements)

References 3 publications

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“…There are many indicators, shows that the future of the environment will be, unfavorably affected if the world dose's change, the energy production and consumption behaviors. [3,4].…”

Section: Introductionmentioning

confidence: 99%

Design a solar power air conditioning system for the engineering building at Mutah University

Farajat¹,

Abu-Zaid²

2020

Global J. Eng. Tech. Adv.

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Jordan like the other non-oil countries, spend significant amount of its budget on importing foreign energy. Also, the power demand increases due to, the population growth, in addition to hosting high number of refugees, from neighboring countries, and the enhancement of the citizen life style. The objective of this study, is to define the cooling load requirement, for the engineering building, at Mutah University, in order to analyze suitable cooling system, to cater the required cooling load. Energy analysis carried out, using the climate variables tabulated data, and Cooling Load Temperature Difference (CLTD), and Cooling Load Factor (CLF). The required power, to drive the cooling system was defined. Climate data shows that the average temperature was 33.2 °C, 32 °C and 33.3 °C in 2015, 2016 and 2017, respectively. The maximum temperatures was 38 °C registered in 2015. In this study the implementation of renewable energy, was considered by analyzing the viability of using, photovoltaic system, to provide power for the cooling system. Two options, to provide power for the system analyzed, the first option is supply the power from the grid, and the second option is, to supply the required power using photovoltaic power plant. The results show that, the cooling load of the building is 560 kW, and the required electrical power, to operate the cooling system is 224 kW electrical power. In addition, the results show that, the cost of power from PV system is, 40 % less than the cost of power from grid for the first 10 years. In addition, the payback period for the designed system is 5 years.

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“…There are many indicators, shows that the future of the environment will be, unfavorably affected if the world dose's change, the energy production and consumption behaviors. [3,4].…”

Section: Introductionmentioning

confidence: 99%

Design a solar power air conditioning system for the engineering building at Mutah University

Farajat¹,

Abu-Zaid²

2020

Global J. Eng. Tech. Adv.

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“…Many of these knowledge gaps apply to small-scale irrigation generally, meaning that the use of solar pumps is just one more dimension. For example, a relatively high capital cost for solar pump systems requires that farmers have access to affordable credit or other forms of financial support (Setiawan et al 2015). However, the credit market for irrigation inputs is generally undeveloped in SSA for rural smallholders.…”

Section: Background On Solar Pump Irrigation In Africamentioning

confidence: 99%

Business model scenarios and suitability: smallholder solar pump-based irrigation in Ethiopia. Agricultural Water Management – Making a Business Case for Smallholders

Otoo¹,

Lefore²,

Schmitter³

et al. 2018

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Research ReportsThe publications in this series cover a wide range of subjects-from computer modeling to experience with water user associations-and vary in content from directly applicable research to more basic studies, on which applied work ultimately depends. Some research reports are narrowly focused, analytical and detailed empirical studies; others are wide-ranging and synthetic overviews of generic problems.Although most of the reports are published by IWMI staff and their collaborators, we welcome contributions from others. Each report is reviewed internally by IWMI staff, and by external reviewers. The reports are published and distributed both in hard copy and electronically (www.iwmi.org) and where possible all data and analyses will be available as separate downloadable files. Reports may be copied freely and cited with due acknowledgment. About IWMIIWMI's mission is to provide evidence-based solutions to sustainably manage water and land resources for food security, people's livelihoods and the environment. IWMI works in partnership with governments, civil society and the private sector to develop scalable agricultural water management solutions that have a tangible impact on poverty reduction, food security and ecosystem health.

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Empowering Rural Education: A Comprehensive Study on the Implementation and Cost Analysis of Standalone Photovoltaic Systems in Sarawak Schools

Jaman,

Othman,

Mat Isa

et al. 2024

Lecture Notes in Electrical Engineering

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Economic Analysis Comparison between Solar Photovoltaic and Diesel Generator for Water Pumping System in an Indonesia Rural Karsts Area

Cited by 5 publications

References 3 publications

Design a solar power air conditioning system for the engineering building at Mutah University

Design a solar power air conditioning system for the engineering building at Mutah University

Business model scenarios and suitability: smallholder solar pump-based irrigation in Ethiopia. Agricultural Water Management – Making a Business Case for Smallholders

Empowering Rural Education: A Comprehensive Study on the Implementation and Cost Analysis of Standalone Photovoltaic Systems in Sarawak Schools

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