Integration of net zero energy building with smart grid to improve regional electrification ratio towards sustainable development

Latief, Yusuf; Berawi, Mohammed Ali; Supriadi, Leni Sagita Riantini; Koesalamwardi, Ario Bintang; Petroceany, Jade Sjafrecia; Herzanita, Ayu

doi:10.1088/1755-1315/109/1/012041

Cited by 7 publications

(6 citation statements)

References 2 publications

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“…The authors point to the need to use an integrated approach to solving housing and communal services problems but do not indicate specific causes and problems of sphere development. Latief et al (2017) note that irreversible environmental damage is caused in the form of greenhouse gas with the development of housing and communal services infrastructure in order to increase the level of electrification in Indonesia. The researchers propose to use the engineering technologies that will increase the energy efficiency of buildings and reduce energy consumption to zero.…”

Section: Literature Reviewmentioning

confidence: 99%

Problems of Development of Housing and Communal Services in Russia

2021

cibg

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Despite the positive tendencies in housing and communal services (HCS) of the Russian Federation, in the 2020 positive changes occur very slowly and sometimes with sharp contradictory deviations from the intended course. In this article, we highlight the major problems of the development of HCS that demand priority elimination. This study aimed at assessing the effectiveness of government programs implemented in the HCS sector and was based on the methods of analysis, induction, deduction and dialectical-logical approaches. Five main problems in the development of HCS were found out by using induction method. The identified problems relate to the field of strategic management and characterize the inefficiency of the development and implementation of development plans. These problems were compared with the tools of private concepts of controlling the sphere of HCS. Namely, the problems of development were compared with the technology of forming a controlling system. Results indicated irregularities or incorrect execution of separate stages of controlling technology. The obtained results have theoretical and practical importance for increasing the efficiency of the development of the sphere. The results of the study can be used to clarify goals, objectives, and adjust activities to accelerate the development of the industry.

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Section: Literature Reviewmentioning

confidence: 99%

Problems of Development of Housing and Communal Services in Russia

2021

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“…Interkoneksi dengan jaringan listrik pusat akan mengeliminasi kebutuhan baterai penyimpanan listrik yang mahal dan memerlukan perawatan tambahan. Listrik yang diekspor dapat mengurangi tagihan listrik pemilik bangunan yang memasang sistem pembangkit listrik EBT seperti panel PV (Dávi, Caamaño-Martín, Rüther, & Solano, 2016;Latief, et al, 2017). Harga beli tersebut yang menjadi unsur dalam skema insentif bagi pemilik bangunan yang memasang panel PV pada bangunannya.…”

Section: Pendahuluanunclassified

Kelayakan Finansial Near Zero Energy Building Dengan Peraturan Kementerian Energi Dan Sumber Daya Mineral No. 49 Tahun 2018 Mengenai Insentif Energi Terbarukan

Koesalamwardi¹,

Eldrian²,

Irene³

et al. 2020

infrastruktur

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Industri konstruksi dan bangunan bertanggung jawab atas lebih dari 35% konsumsi energi di dunia dan menghasilkan hampir 40% emisi gas rumah kaca seperti CO2. Emisi CO2 berasal dari konsumsi energi bangunan dimana lebih dari 65% yang masih bersumber dari bahan bakar fosil. Near Zero-Energy Building (nZEB) adalah sistem bangunan yang memiliki efisiensi energi tinggi dan dapat menghasilkan listrik secara mandiri dari sumber energi terbarukan, sehingga mengurangi biaya operasional dari tagihan listrik tahunan secara signifikan di dalam umur pakainya. Pembangunan berkonsep ini akan menambah biaya konstruksi awal untuk penerapan desain hemat energi dan sistem pembangkit energi terbarukan pada bangunan. Kelayakan finansial bangunan dengan desain seperti ini diukur dengan metode analisis Life Cycle Cost yang juga memperhitungkan biaya operasional sepanjang umur pakainya. Insentif energi terbarukan merupakan faktor penting dalam analisis kelayakan finansial karena insentif ini secara langsung mengurangi biaya operasional (biaya listrik tahunan) bangunan. Kementerian Energi dan Sumber Daya Mineral (ESDM) telah menerbitkan peraturan baru mengenai besaran insentif yang diberikan kepada pemilik bangunan yang memasang pembangkit listrik dari sumber terbarukan. Perlu ada kajian mengenai dampak finansial dari diterbitkannya peraturan baru ini terhadap nilai finansial nZEB sebagai sebuah sistem bangunan utuh yang terintegrasi dengan pembangkit energi dari sumber terbarukan, terutama bangunan pemukiman padat. Tujuan dari penelitian ini adalah membandingkan kelayakan finansial nZEB yang menggunakan peraturan tahun 2013, dengan Peraturan Kementerian ESDM no. 49 tahun 2018, pada bangunan pemukiman padat berkonsep desain nZEB. Penelitian ini menemukan nilai kelayakan finansial konsep desain nZEB di bawah peraturan insentif tahun 2013 lebih besar daripada di bawah peraturan tahun 2018.

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“…A building with a Zero-Energy Building concept uses electricity generated independently from clean and renewable sources for its consumption [11]. By that definition, an ideal application of this concept should first prioritize energy efficiency, the utilization of renewable energy sources available on-site [4].…”

Section: Zero-energy Buildingmentioning

confidence: 99%

“…solar PV panels [18]. As discussed in [4] and [11], optimizing the energy balance in a zeroenergy building can be realized by connecting it to the central electrical grid so that the surplus electrical energy can be exported.…”

Section: Zero-energy Buildingmentioning

confidence: 99%

Cost Optimum Design of Zero-Energy Residential Building

Koesalamwardi

Rostiyanti

2019

KSS

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The continuous growth of population in sub-urban areas leads to increasing demand for mid-rise housing. Recent studies found that greenhouse gas emission in Indonesia continues to escalate at an alarming rate, and housing development is considered as one of the greenhouse gas contributors. Zero-Energy Residential Building, a highly energy efficient and low carbon housing design concept, is regarded as the answer for this environmental issue. Application of Zero-Energy Residential Building concept can reach almost zero sites electrical consumption and reduce greenhouse gas emission since this concept utilizes clean and renewable energy sources, e.g. solar cell, to generate electricity independently. However, this design concept has not been implemented widely since the utilization of solar panels, and other energy conservation components are still too expensive. This study is proposed to find out an optimum combination of design parameters that contribute to cost optimization housing design using sequential search algorithm. Comprehensive study literature and experiment using software are applied in this research. Hence, using the parameter combination in designing a mid-rise dense housing and Zero-Energy Building concept can generate optimum life cycle cost performance. As a result, the study concludes that the life cycle cost of optimized mid-rise Zero-Energy Building is better than the conventional mid-rise housing with annual electrical cost saving up to 98 percent.

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Integration of net zero energy building with smart grid to improve regional electrification ratio towards sustainable development

Cited by 7 publications

References 2 publications

Problems of Development of Housing and Communal Services in Russia

Problems of Development of Housing and Communal Services in Russia

Kelayakan Finansial Near Zero Energy Building Dengan Peraturan Kementerian Energi Dan Sumber Daya Mineral No. 49 Tahun 2018 Mengenai Insentif Energi Terbarukan

Cost Optimum Design of Zero-Energy Residential Building

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