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https:/fteeexplore.ieee.org/Xplore/home.jsp https:/fteeexplore.ieee.org/document/7873578 Scopus

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LEMBAR

HASIL PENILAIAN SEJAWAT SEBIDANG ATAU PEER REVIEW KARYA ILMIAH : PROSIDING

Judul Karya Ilmiah : Biodiesel production with continuous processing and direct Ultrasonic Assisted

Jumlah Penulis : 6

Status Pengusul : Penulis ke-5

Identitas Prosiding : a. Judul Prosiding : 4th International Conference on

Sustainable Energy Engineering and Application (ICSEEA 2016)

b. ISBN/ISSN : 978-1-5090-2899-3

c. Thn Terbit, Tempat Pelaks. : 2018, Tangerang : IEEE Explorer

: https://ieeexplore.ieee.org/document/7873578 : http://eprints.undip.ac.id/79415/1/

Biodiesel_production_with_continuous_processing_and_

direct_Ultrasonic_Assisted.pdf d. Penerbit/Organiser

e. Alamat Repository/Web Alamat Artikel

f. Terindeks di (jika ada) : Scopus Kategori Publikasi Makalah

:  Prosiding Forum Ilmiah Internasional (beri pada kategori yang tepat)

Prosiding Forum Ilmiah Nasional Hasil Penilaian Peer Review :

Komponen Yang Dinilai

Nilai Maksimal Prosiding

Nilai Akhir Yang Diperoleh Internasional Nasional

a. Kelengkapan unsur isi prosiding (10%) 2,5 2,25

b. Ruang lingkup dan kedalaman pembahasan (30%)

7,5 6,75

c. Kecukupan dan kemutahiran data/informasi dan metodologi (30%)

7,5 7,12

d. Kelengkapan unsur dan kualitas terbitan /prosiding (30%)

7,5 7,12

Total = (100%) 25 23,24

Nilai Pengusul = 40% x 23,24 / 5 = 1,86 Catatan Penilaian artikel oleh Reviewer :

1. Kesesuaian dan kelengkapan unsur isi prosiding:

Artikel ditulis sesuai dengan kaidah penulisan suatu artikel ilmiah pada prosiding.

2. Ruang lingkup dan kedalaman pembahasan:

Ruang lingkup cukup jelas. Pembahasan cukup.

3. Kecukupan dan kemutakhiran data/informasi dan metodologi:

Data cukup. Metodologi cukup jelas.

4. Kelengkapan unsur dan kualitas terbitan:

4th International Conference on Sustainable Energy Engineering and Application (ICSEEA 2016) termasuk prosiding internasional terindeks google scholar. Sehingga nilai AK maksimum 25. Ybs sebagai penulis keempat dari 4 penulis, dimana penulis pertama = penulis korespondensi, sehingga nilai maksimum = 1/3 x 40% x 25 = 3,33.

Surakarta, 12 Maret 2020 Reviewer 2

Prof. Dr. techn. Suyitno, S.T., M.T.

NIP. 197403262000031001

Unit Kerja : Fakultas Teknik Universitas Sebelas Maret Bidang Ilmu : Teknik Mesin



Document details

1 of 1

Biodiesel production with continuous processing and direct Ultrasonic Assisted (Conference Paper)

, , , , ,

Department of Chemical Engineering, Faculty of Engineering, Diponegoro University, Semarang, Indonesia Department of Mehanical Engineering, Engineering Faculty, Diponegoro University, Semarang, Indonesia

Abstract

Biodiesel is an alternative energy can made from renewable resources such as vegetable oils and animal fats. One of considerable resource is vegetable oil, the plant's lipid-based oils. However, the application of vegetable oil in Indonesia are mostly used for foodstuff oil (edible oil), so it's not recommended as biodiesel feedstock because it is vital for human consumption, therefore it is required a new source of low usability vegetable oil such as Waste- Cooking Oil. The application of waste-cooking oil as biodiesel feedstock can reduce waste problems too. One technology that are lately often used is Ultrasonic - Assisted Technology. The objective of this research is to develop

biodiesel process with Continuous Processing and Ultrasonic - Assisted Technology. Free Fatty Acid (FFA) contents in used cooking oil was analyzed with acidi alkali metry. FFA was reduced with esterification or neutralization process up to <3wt.%. Transesterification reaction was carried out with a base catalyst continuously reaction and

ultrasonic assisted . Products were separated and analyzed about density, viscosity and contents of methyl ester.

The results of experiments shown that the experiments with ratio methanol to triglyceride 8:1 was better product than ratio of 4:1. Increasing flowrate (14-16 ml/.minute) caused yield of biodiesel increase to. Yield of biodiesel was obtained 75.6-78%. Characteristics of biodiesel produced in accordance with ISO biodiesels. © 2016 IEEE.

SciVal Topic Prominence

Topic:

Prominence percentile: 99.859

Author keywords

Biodiesel Continuous Process Ultrasonic - Assisted Technology Waste-cooking Oil

Indexed keywords

Engineering controlled terms:

Biodiesel Energy conservation Esters Fatty acids Feedstocks Thermal processing (foods) Vegetable oils

Engineering uncontrolled terms

Biodiesel feedstock Biodiesel production Considerable resources Continuous process Continuous processing Neutralization process Transesterification reaction Waste cooking oil

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Proceeding - 2016 International Conference on Sustainable Energy Engineering and Application:

Sustainable Energy for a Better Life, ICSEEA 2016 7 March 2017, Article number 7873578, Pages 122-126

4th International Conference on Sustainable Energy Engineering and Application, ICSEEA 2016;

Indonesia Convention ExhibitionTangerang, Banten; Indonesia; 3 October 2016 through 5 October 2016; Category numberCFP16AAF-ART; Code 126775

Widayat

^a

 Satriadi, H.

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 Choirudin, F.

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Fitriana, A.

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Kiono, B.F.T.

^b

 Syaiful

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Biodiesel | Transesterification | Produce biodiesel

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References (14)

Engineering main heading:

Oils and fats

(2013) 

EIA, US Department of Energy

 

Widayat, Satriadi, H., Nafiega, N.F., Dipo, R., Okvitarini, Alimin, A.J., Ali, M.F.M.

(2015) AIP Conference Proceedings, 1699, art. no. 030020.  . ISBN: 978-073541346-7

doi: 10.1063/1.4938305

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(Open Access)

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Chen, Y., Xiao, B., Chang, J., Fu, Y., Lv, P., Wang, X.

(2009) Energy Conversion and Management, 50 (3), pp. 668-673.  . doi: 10.1016/j.enconman.2008.10.011

ISBN: 978-150902899-3

Source Type: Conference Proceeding Original language: English

DOI: 10.1109/ICSEEA.2016.7873578 Document Type: Conference Paper

Volume Editors: Utomo S.,Rahmayanti R.,Yazid E.,Soesanto Q.

Sponsors:

Publisher: Institute of Electrical and Electronics Engineers Inc.

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1

http://www.eia.gov/access

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Biodiesel production from multi feedstock as feed with direct ultrasound assisted

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Biodiesel production from bulk frying oil with ultrasound assisted

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Synthesis of biodiesel from waste cooking oil using immobilized lipase in fixed bed reactor

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Biodiesel production from palm oil using combined mechanical stirred and ultrasonic reactor

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Ultrasonically driven continuous process for vegetable oil transesterification

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Organizer

Scientific Committee

Sanjeevikumar Padmanaban (UniBo, Italy, Senior Member IEEE, Ministry of University Research (MIUR) Fellow (Govt. of Italy)) Craig Froome (The Global Change Institute, The University of Queensland, Australia)

Wilfred Michael Walsh (Solar Energy Research Institute of Singapore, Singapore) Rosli bin Abubakar (Universiti Malaysia Pahang, Malaysia)

James Marco (University of Warwick, United Kingdom)

Wahyu Mulyo Utomo (Department of Electrical Power Engineering, UTHM, Malaysia) Mukesh T Pandya (Jai Hind College, University of Mumbai, India)

Sudhakara Reddy Basireddy (Indira Gandhi Institute of Development Research, Mumbai, India) Ocktaeck Lim (University of Ulsan, Republic of Korea)

Oo Abdul Rasyid (Center for Energy Technology (B2TE), BPPT, Indonesia) Agus Sofwan (National Institute of Science and Technology, Indonesia) Riza Muhida (STKIP Surya (Surya University), Indonesia)

Prapto Nugroho (Department of Electrical Engineering and Information Technology, UGM, Indonesia) Harwin Saptoadi (Department of Mechanical and Industrial Engineering, UGM, Indonesia)

Ahmad Agus Setiawan (Department of Engineering Physics, UGM, Indonesia)

F. Danang Wijaya (Department of Electrical Engineering and Information Technology, UGM, Indonesia) Agfianto Eko Putra (Department of Computer Science and Electronics, UGM, Indonesia)

Dedi (Research Center for Electronics and Telecommunication, LIPI, Indonesia) Haznan Abimanyu (Research Centre for Chemistrty, LIPI, Indonesia)

Yani Sudiyani (Research Centre for Chemistry, LIPI, Indonesia)

Muhammad Ikhlasul Amal (Research Center for Metalurgy and Material, LIPI, Indonesia) Sunit Hendrana (Research Centre for Physic, LIPI, Indonesia)

Irwan Purnama (Bandung Technical Management Unit for Instrumentation Development, LIPI, Indonesia) Estiko Rijanto (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia)

Budi Prawara (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Widodo Budi Santoso (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Sunarto Kaleg (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Arini Wresta (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Nur Rohmah (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Pudji Irasari (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Ghalya Pikra (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Ridwan Arief Subekti (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Muhammad Kasim (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Aam Muharam (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Agus Risdiyanto (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Amin (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia)

Maulana Arifin (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Dian Andriani (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia)

*this scientific committee is object to be updated

Organizing Committee

Advisory:

Budi Prawara (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Chairman:

Edwar Yazid (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Vice Chairman:

Sapdo Utomo (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Secretary and Registration:

Qidun Maulana Binu Soesanto (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Treasury:

Rifa Rahmayanti (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Technical Program Chairs:

Hendri Maja Saputra (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Rakhmad Indra Pramana (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Aditya Sukma Nugraha (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Midriem Mirdanies (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Rudi Darussalam (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Asep Nugroho (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia) Yukhi Mustaqim Kusuma (Research Centre for Electrical Power and Mechatronics, LIPI, Indonesia)

LIPI O P I - Organisasi Profesi Ilmiah Indonesia »»»»»»»»»»

1/11/2020 ICSEEA 2016 - 4th International Conference on Sustainable Energy Engineering and Application

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Programme (tentative)

- Day 1: Monday, 3 October 2016 - Plenary Session

08.30 - 09.00 Reagistration 09.00 - 09.10 Report Speech

General Chair of STF 2016 09.10 - 09.20 Welcome Address

Chairman of Indonesian Institute of Sciences 09.20 - 09.30 Opening Remark

Ministry of Research, Technology, and Higher Education 09.30 - 10.15 2016 STF 1st Invited Speaker

Prof. Ng Wun Jern (Nanyang Technology University, Singapore) 10.15 - 10.30 -- Coffe Break --

10.30 - 11.15 2016 STF 2nd Invited Speaker

Prof. Dr.rer.nat. Joachim Mayer (Director of Ernst-Ruska Centre (ER-C), Central Facility for Electron Microscopy at RWTH Aachen University, Germany)

11.15 - 12.00 2016 STF 3rd Invited Speaker

Prof Tetsuya Kawanishi (Department of Electronics and Physical Systems, Waseda University, Japan) 12.00 - 13.00 -- Lunch Break --

- Parallel Session 13.00 - 15.00 Parallel Program I

Room: Nusantara Hall - Ground Floor 15.00 - 15.20 --Coffe break--

15.20 - 17.20 Parallel Program II

Room: Nusantara Hall - Ground Floor

-

- Day 2: Tuesday, 4 October 2016 08.00 - 08.30 Registration

08.30 - 08.45 --Coffe break-- - Leading Talk Session

Room: Nusantara Hall - Ground Floor 09.00 - 10.00 Prof. Yang Yuan Chen

Institute of Physics, Academia Sinica, Taiwan 10.00 - 11.00 Mr. Makoto Fujita

Murata Corporation, Japan 11.15 - 12.00 Parallel Program I

Room: Nusantara Hall - Ground Floor 12.00 - 13.00 -- Lunch Break --

13.00 - 17.00 Parallel Program II

Room: Nusantara Hall - Ground Floor 17.00 - 17.15 Closing Ceremony

17.15 - 17.35 -- Coffe Break --

ATTENTION ! The time table is tentative and subject to change. Please keep yourself uptodate by visiting this page periodically...

LIPI O P I - Organisasi Profesi Ilmiah Indonesia »»»»»»»»»»

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Performance Analysis of Updraft Gasifier

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Nugroho Agung Pambudi, Kenshi Itaoka, Natsuki Yamakawa, Atsushi Kurosawa

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Aditya Sukma Nugraha, Budi Prawara, Erie Martides, Budi Priyono

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Nur Rohmah, Ghalya Pikra, Rakhmad Pramana,Andri Purwanto

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Midriem Mirdanies, Roni Permana Saputra

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Syafii, Roni Putra, Muhammad Ilhamdi Rusydi, Muhammad Hadi Putra

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Pisan Booneimsri, Kuskana Kubaha, Chullapong Chullabodhi ¹¹⁶ Biodiesel Production with Continuous Processing and Direct Ultrasonic Assisted

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1/11/2020 Residential grid connected solar inverter using fuzzy logic DC-DC Converter - IEEE Conference Publication

https://ieeexplore.ieee.org/document/7873560/authors#authors 1/2

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4Author(s) A. Aryal ; A. Hellany ; J. Rizk ; M. Nagrial View All Authors

Residential grid connected solar inverter using fuzzy logic DC-DC Converter

Publisher: IEEE

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Abstract Document Sections I. Introduction II. Fuzzy Logic MPPT

Based DC-DC Converter III. DC-AC Converter

Topology IV. Simulation Results V. Conclusion

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Abstract: This paper presents a residential solar grid connected inverter with analysis of DC-DC converter based on fuzzy logic. The performance of the fuzzy logic algorithm is sim... View more

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Published in: 2016 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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This paper presents a residential solar grid connected inverter with analysis of DC-DC converter based on fuzzy logic. The performance of the fuzzy logic algorithm is simulated in Matlab. The fuzzy logic algorithm used in this paper avoids the problem of ongoing tracking oscillations encountered with other types of popular Maximum Power Point Tracking (MPPT) techniques like P&O (Perturb and Observe), Hill-climbing and incremental conductance method. Maximum Power Point Tracking is a method of delivering maximum power from solar panels to the grid by commonly known method as impedance matching. The simulation shows that for arbitrary points of irradiance and temperature the absolute tracking error is less than or equal to 1.4%. The proposed fuzzy logic MPPT only computes duty cycle above 500 W/m ; which is not critical for a solar generation as the proposed algorithm functions well in daylight conditions.

2

Date of Conference: 3-5 Oct. 2016 Date Added to IEEE Xplore: 09 March 2017

ISBN Information:

INSPEC Accession Number: 16726853 DOI: 10.1109/ICSEEA.2016.7873560 Publisher: IEEE

Conference Location: Jakarta, Indonesia A. Aryal

Western Sydney University, Australia

A. Hellany

Western Sydney University, Australia

J. Rizk

Western Sydney University, Australia

M. Nagrial

Western Sydney University, Australia

I. Introduction

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Modelling of Fuzzy Logic Controller of a Maximum Power Point Tracker Based on Artificial Neural Network

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1/11/2020 A study on wireless power transfer using tesla coil technique - IEEE Conference Publication

https://ieeexplore.ieee.org/document/7873564/authors#authors 1/2

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4Author(s) Pusparini Dewi Abd Aziz ; Ahmad Lukhfhy Abd Razak ; Mohd Izhar Abu Bakar ; Nulida Ab. Aziz View All Authors

A study on wireless power transfer using tesla coil technique

Publisher: IEEE

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Abstract: Wireless power transfer is the transmission of electrical energy from a power source to an electrical load without any conductive physical connection. Wireless electricit... View more

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Published in: 2016 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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Wireless power transfer is the transmission of electrical energy from a power source to an electrical load without any conductive physical connection. Wireless electricity ensure that the cell phones, laptops, iPods, and other power electrical devices get changed on their own, with no need of plugging them that can prevent the sockets with all sorts of wires. Wireless power transfer is when the magnetic field is transferred over short distance. The magnetic field is created using inductive coupling between coils of wire or electric fields using capacitive coupling between electrodes. The most common form of wireless power transmission is carried out using direct induction followed by resonant magnetic induction. The carrying fluxes that induce in the inductor can be captured by another inductive coil that can produce an induced flux between the receiver coils that coupled to the primary coil. Since this technique using magnetic field to transfer the electrical energy, the flux that produces in the primary coil must be in high density with high frequency. Thus, the tesla coil is used as a transmitter to produces high voltage, high frequency and low alternating current in order to produce high density flux. In this work, a tesla coil is a main part of transmitter component in wireless electricity apparatus and need to develop with a view to demonstrate how magnetic induction is coupled to perform a wireless power transfer. In addition, the construction of winding coils of the tesla coil would be the great effects in order to provide electricity to supply a load without wires in distances. The advantages of the wireless electricity system would be completely eliminating existing wires for electrical appliances between power sources. With wireless electricity, the electrical system will be more secure as it will prevent user from electrocution of current and the power failure due to short circuit and fault or power loss on cable would never exist.

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Date of Conference: 3-5 Oct. 2016 Date Added to IEEE Xplore: 09 March 2017

ISBN Information:

INSPEC Accession Number: 16726839 DOI: 10.1109/ICSEEA.2016.7873564 Publisher: IEEE

Conference Location: Jakarta, Indonesia Pusparini Dewi Abd Aziz

Electrical Technology Section, Universiti Kuala Lumpur - British Malaysian Institute, Gombak, Malaysia

Ahmad Lukhfhy Abd Razak

Electrical Technology Section, Universiti Kuala Lumpur - British Malaysian Institute, Gombak, Malaysia

Mohd Izhar Abu Bakar

Electrical Technology Section, Universiti Kuala Lumpur - British Malaysian Institute, Gombak, Malaysia

Nulida Ab. Aziz

Electrical Technology Section, Universiti Kuala Lumpur - British Malaysian Institute, Gombak, Malaysia

I. Introduction

Wireless electricity is beneficial in cases where interconnecting wires are complicated,

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A resonant MEMS magnetic field sensor with electromagnetic induction sensing

The 9th IEEE International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) Published: 2014

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1/11/2020 Decentralized low-cost flywheel energy storage for photovoltaic systems - IEEE Conference Publication

https://ieeexplore.ieee.org/document/7873565/authors#authors 1/2

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7Author(s) A. Buchroithner ; A. Haan ; R. Preßmair ; M. Bader ; B. Schweighofer ; H. Wegleiter ; H. Edtmayer View All Authors

Decentralized low-cost flywheel energy storage for photovoltaic systems

Publisher: IEEE

4 Paper Citations

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Abstract Document Sections I. Introduction II. Benefits of Energy

Storage for Rooftop PV III. Fess Basics IV. FESS for Rooftop PV V. Technical Solutions to FESS Shortcomings

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Abstract: This publication demonstrates that flywheel energy storage systems (FESS) are a valid alternative to batteries for storing energy generated by decentralized rooftop photo... View more

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Published in: 2016 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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This publication demonstrates that flywheel energy storage systems (FESS) are a valid alternative to batteries for storing energy generated by decentralized rooftop photovoltaic systems. The increasing number of private PV arrays calls out for high energy storage capacities in order not to overload the grid. Despite being the current storage technology of choice, chemical batteries are still too expensive and have certain disadvantages compared to FESS, such as capacity fade over time and currently still difficult recycling. Within a research project at the Graz University of Technology a feasibility study for a low-cost, low-loss FESS was conducted. Energetic dimensioning was performed using actual PV power and electric load data recorded at a building in Austria with 6 apartment units. A low-cost flywheel system with an energy content of 5.0 kWh and 2.2 kW maximum rated power using a steel rotor and economic off-the shelf components was designed and investigated. Self-discharge of the proposed FESS design was significantly reduced using a cast silicone bearing seat, which allows supercritical rotor operation. Axial bearing loads were compensated by nearly 100% via repelling permanent magnets allowing drastic down-sizing of the bearings and further reduction of torque loss. The concept was validated by a small-scale test setup, which showed promising results. Finally, an improved design option is compared to the initially proposed FESS in terms of costs and self-discharge.

Date of Conference: 3-5 Oct. 2016 Date Added to IEEE Xplore: 09 March 2017

ISBN Information:

INSPEC Accession Number: 16726847 DOI: 10.1109/ICSEEA.2016.7873565 Publisher: IEEE

Conference Location: Jakarta, Indonesia A. Buchroithner

Institute for Machine Elements and Development Methods, Graz University of Technology, Austria

A. Haan

Institute for Machine Elements and Development Methods, Graz University of Technology, Austria

R. Preßmair

Institute for Machine Elements and Development Methods, Graz University of Technology, Austria

M. Bader

Institute for Machine Elements and Development Methods, Graz University of Technology, Austria

B. Schweighofer

Institute for Electric Measurement and Signal Processing, Graz University of Technology, Austria

H. Wegleiter

Institute for Electric Measurement and Signal Processing, Graz University of Technology, Austria

H. Edtmayer

4ward Energy Research GmbH, Graz, Austria

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Development of doubly salient permanent magnet motor flywheel energy storage for building integrated photovoltaic system

APEC 2001. Sixteenth Annual IEEE Applied Power Electronics Conference and Exposition (Cat.

No.01CH37181) Published: 2001

Analysis of the rotor loss in a high speed permanent magnet motor for flywheel energy storage system 2015 18th International Conference on Electrical Machines and Systems (ICEMS)

Published: 2015

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1/11/2020 Performance analysis of updraft gasifier - IEEE Conference Publication

https://ieeexplore.ieee.org/document/7873568/authors#authors 1/2

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3Author(s) Muhammad Amin ; W. A. M. K. P. Wickramaarachchi ; Mahinsasa Narayana View All Authors

Performance analysis of updraft gasifier

Publisher: IEEE

102

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Abstract: Biomass is becoming very tremendous and promising renewable energy source in the world over usage of fossil fuel. However it is still necessary to identify points of orig... View more

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Published in: 2016 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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Biomass is becoming very tremendous and promising renewable energy source in the world over usage of fossil fuel. However it is still necessary to identify points of origin and quantity of generation to recognize the unknown potential of biomass energy source. Mangoes are cultivated in tropical climates throughout the world enabling enjoying it all over the year. Large-scale productions are carried out to produce various food types such as chutney, pickles, jelly, juice, smoothie and ice-cream in industrial scale. As a result mango pit which is one form of biomass generated basically as an industrial waste. Therefore mango pit can be utilized to generate energy by applying an appropriate technology of energy generation. In addition Coconut shell and Gliricidea are already established biomass energy sources in Sri Lanka. This study intends to develop an updraft gasifier for mango pits and compare performance with Coconut shell and Gliricidea. Considering abundant availability of mango pit, it has been introduced as a new biomass energy source to Sri Lanka. A laboratory scale updraft gasifier was designed and fabricated to conduct experiments. Results show that conversion of mango pit into producer gas by gasification is giving an efficient energy recovery at this stage and is a good solution for large scale mango pit waste produced from related industries.

Date of Conference: 3-5 Oct. 2016 Date Added to IEEE Xplore: 09 March 2017

ISBN Information:

INSPEC Accession Number: 16726850 DOI: 10.1109/ICSEEA.2016.7873568 Publisher: IEEE

Conference Location: Jakarta, Indonesia Muhammad Amin

Department of Chemical and Process Engineering, University of Moratuwa, Sri Lanka

W. A. M. K. P. Wickramaarachchi

Department of Chemical and Process Engineering, University of Moratuwa, Sri Lanka

Mahinsasa Narayana

Department of Chemical and Process Engineering, University of Moratuwa, Sri Lanka

I. Introduction

From last few years increasing trend towards the usage of biomass as a renewable

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Using Geothermal Energy and Industrial Waste Heat for Power Generation

2007 IEEE Canada Electrical Power Conference Published: 2007

Application of the Internet of Thing in Green Agricultural Products Supply Chain Management 2011 Fourth International Conference on Intelligent Computation Technology and Automation Published: 2011

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1/11/2020 Future Japan power generation sector by introducing hydrogen plant with 80% CO<inf>2</inf> emission reduction target: A prelimina…

https://ieeexplore.ieee.org/document/7873569/authors#authors 1/2

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4Author(s) Nugroho Agung Pambudi ; Kenshi Itaoka ; Natsuki Yamakawa ; Atsushi Kurosawa View All Authors

Future Japan power generation sector by introducing hydrogen plant with 80%

CO2 emission reduction target: A preliminary analysis

Publisher: IEEE

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Abstract Document Sections I. Introduction II. Japan GHG Emission

Reduction Target in 2050

III. Hydrogen Power Plant IV. Markal-Times Models

Generator V. Result and Discussion

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Abstract: Large amounts of carbon emissions is produced in Japan which releases almost 4% of global carbon emissions. It is the fifth largest emissions producer in the world, after... View more

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Published in: 2016 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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Large amounts of carbon emissions is produced in Japan which releases almost 4% of global carbon emissions. It is the fifth largest emissions producer in the world, after China (25.5%), the US (16.9%), India (5.6%) and Russia (5.3%). Ever since, Japan has target of 80% emission reduction of current condition by 2050. The purpose of this research is to investigate the changes of the power generation system with radical emission reduction target by applying Markal-Times Japan framework. A new hydrogen power plant technology to support 80% emission reduction is also introduced. The results show a sharp reduction of coal, oil, and natural gas utilization by 2030 and a completely phased out by 2050. In the analysis used in this paper, the nuclear is assumed no longer available in the future. Hydrogen fired and co-firing power plant has a big role in future power generation system. Therefore, the change of power generation scenario affect the emission reduction radically. The emissions decrease to 351 Mt by 2020, less than 300 by 2030, and just 82 Mt by 2050-which would be 80% of the emissions released in 2010.

Date of Conference: 3-5 Oct. 2016 Date Added to IEEE Xplore: 09 March 2017

ISBN Information:

INSPEC Accession Number: 16726840 DOI: 10.1109/ICSEEA.2016.7873569 Publisher: IEEE

Conference Location: Jakarta, Indonesia Nugroho Agung Pambudi

International Institute for Carbon-Neutral Research (WPII2CNER), Kyushu University, 744 Motooka, Nishi-ku, Fukuoka 819-0395, Japan

Kenshi Itaoka

International Institute for Carbon-Neutral Research (WPII2CNER), Kyushu University, 744 Motooka, Nishi-ku, Fukuoka 819-0395, Japan

Natsuki Yamakawa

International Institute for Carbon-Neutral Research (WPII2CNER), Kyushu University, 744 Motooka, Nishi-ku, Fukuoka 819-0395, Japan

Atsushi Kurosawa

The Institute of Applied Energy 14-2, Nishi-Shinbashi 1-Chome, Minato-ku, Tokyo, 105-0003, Japan

I. Introduction

As global warming poses increasing dangers throughout the world, it is crucial that major emitters among developed countries develop plans to reduce the production of greenhouse gasses. The planet's warmest year on record was 2015, and it continues with high average temperature from the beginning of year 2016 [1]. Adapted to IPCC, this global warming is estimated to cost the world economy over $2 trillion in lost productivity by 2030 [2] To

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Published: 2010

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