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Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format
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Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format Example of International Journal of Energy Research format
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open access Open Access
recommended Recommended
Go to publisher

International Journal of Energy Research — Template for authors

Publisher: Wiley
Guideline source
Categories Rank Trend in last 3 yrs
Nuclear Energy and Engineering #7 of 66 down down by 2 ranks
Energy Engineering and Power Technology #58 of 224 down down by 30 ranks
Fuel Technology #32 of 100 down down by 16 ranks
Renewable Energy, Sustainability and the Environment #66 of 195 down down by 21 ranks
journal-quality-icon Journal quality:
High
calendar-icon Last 4 years overview: 1990 Published Papers | 9977 Citations
indexed-in-icon Indexed in: Scopus
last-updated-icon Last updated: 29/03/2023
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Quality:  
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Journal Performance & Insights

Impact Factor

CiteRatio

Determines the importance of a journal by taking a measure of frequency with which the average article in a journal has been cited in a particular year.

A measure of average citations received per peer-reviewed paper published in the journal.

3.741

12% from 2018

Impact factor for International Journal of Energy Research from 2016 - 2019
Year Value
2019 3.741
2018 3.343
2017 3.009
2016 2.598
graph view Graph view
table view Table view

5.0

19% from 2019

CiteRatio for International Journal of Energy Research from 2016 - 2020
Year Value
2020 5.0
2019 4.2
2018 4.6
2017 4.9
2016 4.8
graph view Graph view
table view Table view

insights Insights

  • Impact factor of this journal has increased by 12% in last year.
  • This journal’s impact factor is in the top 10 percentile category.

insights Insights

  • CiteRatio of this journal has increased by 19% in last years.
  • This journal’s CiteRatio is in the top 10 percentile category.

SCImago Journal Rank (SJR)

Source Normalized Impact per Paper (SNIP)

Measures weighted citations received by the journal. Citation weighting depends on the categories and prestige of the citing journal.

Measures actual citations received relative to citations expected for the journal's category.

0.808

3% from 2019

SJR for International Journal of Energy Research from 2016 - 2020
Year Value
2020 0.808
2019 0.785
2018 0.838
2017 0.764
2016 0.744
graph view Graph view
table view Table view

1.239

3% from 2019

SNIP for International Journal of Energy Research from 2016 - 2020
Year Value
2020 1.239
2019 1.204
2018 1.18
2017 1.004
2016 0.933
graph view Graph view
table view Table view

insights Insights

  • SJR of this journal has increased by 3% in last years.
  • This journal’s SJR is in the top 10 percentile category.

insights Insights

  • SNIP of this journal has increased by 3% in last years.
  • This journal’s SNIP is in the top 10 percentile category.

International Journal of Energy Research

Guideline source: View

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Wiley

International Journal of Energy Research

The International Journal of Energy Research is dedicated to providing a multidisciplinary platform for the discussion of issues arising in energy research without the constraints imposed by aiming at a restricted audience. It aims to reach all researchers, scientists, enginee...... Read More

Energy

i
Last updated on
29 Mar 2023
i
ISSN
0363-907X
i
Impact Factor
High - 1.579
i
Open Access
Yes
i
Sherpa RoMEO Archiving Policy
Yellow faq
i
Plagiarism Check
Available via Turnitin
i
Endnote Style
Download Available
i
Bibliography Name
apa
i
Citation Type
Numbered
[25]
i
Bibliography Example
 Beenakker, C.W.J. (2006) Specular andreev reflection in graphene.Phys. Rev. Lett., 97 (6), 067 007. URL 10.1103/PhysRevLett.97.067007.

Top papers written in this journal

open accessOpen access Journal Article DOI: 10.1002/ER.1372
Renewable hydrogen production
John A. Turner1, George M. Sverdrup1, Margaret K. Mann1, Pin-Ching Maness1, B. Kroposki1, Maria L. Ghirardi1, Robert J. Evans1, Dan Blake1
National Renewable Energy Laboratory1
01 Apr 2008 - International Journal of Energy Research

Abstract:

The U.S. Department of Energy and the National Renewable Energy Laboratory are developing technologies to produce hydrogen from renewable, sustainable sources. A cost goal of $2.00–$3.00 kg−1 of hydrogen has been identified as the range at which delivered hydrogen becomes cost competitive with gasoline for passenger vehicles.... The U.S. Department of Energy and the National Renewable Energy Laboratory are developing technologies to produce hydrogen from renewable, sustainable sources. A cost goal of $2.00–$3.00 kg−1 of hydrogen has been identified as the range at which delivered hydrogen becomes cost competitive with gasoline for passenger vehicles. Electrolysis of water is a standard commercial technology for producing hydrogen. Using wind and solar resources to produce the electricity for the process creates a renewable system. Biomass-to-hydrogen processes, including gasification, pyrolysis, and fermentation, are less well-developed technologies. These processes offer the possibility of producing hydrogen from energy crops and from biomass materials such as forest residue and municipal sewage. Solar energy can be used to produce hydrogen from water and biomass by several conversion pathways. Concentrated solar energy can generate high temperatures at which thermochemical reactions can be used to split water. Photoelectrochemical water splitting and photobiology are long-term options for producing hydrogen from water using solar energy. All these technologies are in the development stage. Copyright © 2007 John Wiley & Sons, Ltd. read more read less

Topics:

Hydrogen economy (69%)69% related to the paper, Renewable energy (65%)65% related to the paper, Renewable fuels (62%)62% related to the paper, Hydrogen production (60%)60% related to the paper, Solar energy (59%)59% related to the paper
853 Citations
open accessOpen access Journal Article DOI: 10.1002/ER.1863
Development of the all-vanadium redox flow battery for energy storage : a review of technological, financial and policy aspects
Gareth Kear1, Akeel A. Shah1, Frank C. Walsh1
University of Southampton1
01 Sep 2012 - International Journal of Energy Research

Abstract:

The commercial development and current economic incentives associated with energy storage using redox flow batteries (RFBs) are summarised. The analysis is focused on the all-vanadium system, which is the most studied and widely commercialised RFB. The recent expiry of key patents relating to the electrochemistry of this batt... The commercial development and current economic incentives associated with energy storage using redox flow batteries (RFBs) are summarised. The analysis is focused on the all-vanadium system, which is the most studied and widely commercialised RFB. The recent expiry of key patents relating to the electrochemistry of this battery has contributed to significant levels of commercialisation in, for example, Austria, China and Thailand, as well as pilot-scale developments in many countries. The potential benefits of increasing battery-based energy storage for electricity grid load levelling and MW-scale wind/solar photovoltaic-based power generation are now being realised at an increasing level. Commercial systems are being applied to distributed systems utilising kW-scale renewable energy flows. Factors limiting the uptake of all-vanadium (and other) redox flow batteries include a comparatively high overall internal costs of $217 kW−1 h−1 and the high cost of stored electricity of ≈ $0.10 kW−1 h−1. There is also a low-level utility scale acceptance of energy storage solutions and a general lack of battery-specific policy-led incentives, even though the environmental impact of RFBs coupled to renewable energy sources is favourable, especially in comparison to natural gas- and diesel-fuelled spinning reserves. Together with the technological and policy aspects associated with flow batteries, recent attempts to model redox flow batteries are considered. The issues that have been addressed using modelling together with the current and future requirements of modelling are outlined. Copyright © 2011 John Wiley & Sons, Ltd. read more read less

Topics:

Energy policy (57%)57% related to the paper, Energy storage (56%)56% related to the paper, Renewable energy (55%)55% related to the paper, Electricity generation (53%)53% related to the paper, Photovoltaic system (53%)53% related to the paper
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585 Citations
Journal Article DOI: 10.1002/ER.4440050406
Markal, a linear-programming model for energy systems analysis: Technical description of the bnl version
Leslie G. Fishbone1, Harold Abilock1
Associated Universities, Inc.1
01 Jan 1981 - International Journal of Energy Research

Abstract:

As part of a project to assess the value of new energy technologies, an international group of researchers created a linear-programming model of national energy systems. This model, MARKAL, is driven by useful energy demands, optimizes over several time periods collectively, and allows multiobjective analyses to be performed ... As part of a project to assess the value of new energy technologies, an international group of researchers created a linear-programming model of national energy systems. This model, MARKAL, is driven by useful energy demands, optimizes over several time periods collectively, and allows multiobjective analyses to be performed quite easily. We describe here the technical structure of the model, defining the functions determined when satisfying the model's relations and the parameters that must be supplied to give the model content. read more read less
564 Citations
Journal Article DOI: 10.1002/ER.1284
Size effects on the hydrogen storage properties of nanostructured metal hydrides: A review
Vincent Berube1, Gregg A. Radtke1, Mildred S. Dresselhaus1, Gang Chen1
Massachusetts Institute of Technology1
01 May 2007 - International Journal of Energy Research

Abstract:

Hydrogen is considered a good energy carrier candidate for future automotive applications that could be part of a carbon-free cycle. Metal hydrides are often preferred over pressurized gas and other hydrogen storage methods because of their gravimetric and volumetric storage capacities and safe operating pressures. In additio... Hydrogen is considered a good energy carrier candidate for future automotive applications that could be part of a carbon-free cycle. Metal hydrides are often preferred over pressurized gas and other hydrogen storage methods because of their gravimetric and volumetric storage capacities and safe operating pressures. In addition to the hydrogen storage capacity, other properties that have often been disregarded must now be addressed before hydrogen storage in metal hydrides becomes feasible. The slow hydriding/dehydriding kinetics, high release temperature, low storage efficiency due to the high enthalpy of formation, and thermal management during the hydriding reaction remain important difficulties in meeting the objectives set by the Department of Energy (DOE) for hydrogen storage systems. Nanotechnology offers new ways of addressing those issues by taking advantage of the distinctive chemical and physical properties observed in nanostructures. Nanostructured materials significantly improve the reaction kinetics, reduce the enthalpy of formation, and lower the hydrogen absorption and release temperatures through destabilization of the metal hydride and multiple catalytic effects in the system. But nanostructures can also lead to poor cyclability, degradation of the sorption properties, and a significant reduction of the thermal conductivity that could make metal hydrides impractical for hydrogen storage. This review summarizes the effects that nanotechnology can have on the main properties of metal hydrides and highlights the main competing behaviours between the system requirements, the necessary trade-offs, and the research priorities necessary to obtain hydride storage materials for practical automotive applications. Copyright © 2007 John Wiley & Sons, Ltd. read more read less

Topics:

Hydrogen storage (65%)65% related to the paper, Hydride (57%)57% related to the paper, Hydrogen (54%)54% related to the paper, Energy carrier (50%)50% related to the paper
558 Citations
open accessOpen access Journal Article DOI: 10.1002/ER.1136
A model for generating household electricity load profiles
Jukka Paatero1, Peter Lund1
Helsinki University of Technology1
01 Apr 2006 - International Journal of Energy Research

Abstract:

Electricity consumption data profiles that include details on the consumption can be generated with a bottom-up load models. In these models the load is constructed from elementary load components that can be households or even their individual appliances. In this work a simplified bottom-up model is presented. The model can ... Electricity consumption data profiles that include details on the consumption can be generated with a bottom-up load models. In these models the load is constructed from elementary load components that can be households or even their individual appliances. In this work a simplified bottom-up model is presented. The model can be used to generate realistic domestic electricity consumption data on an hourly basis from a few up to thousands of households. The model uses input data that is available in public reports and statistics. Two measured data sets from block houses are also applied for statistical analysis, model training, and verification. Our analysis shows that the generated load profiles correlate well with real data. Furthermore, three case studies with generated load data demonstrate some opportunities for appliance level demand side management (DSM). With a mild DSM scheme using cold loads, the daily peak loads can be reduced 7.2% in average. With more severe DSM schemes the peak load at the yearly peak day can be completely levelled with 42% peak reduction and sudden 3 h loss of load can be compensated with 61% mean load reduction. Copyright © 2005 John Wiley & Sons, Ltd. read more read less

Topics:

Electrical load (51%)51% related to the paper
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528 Citations
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12. Is International Journal of Energy Research's impact factor high enough that I should try publishing my article there?

To be honest, the answer is no. The impact factor is one of the many elements that determine the quality of a journal. Few of these factors include review board, rejection rates, frequency of inclusion in indexes, and Eigenfactor. You need to assess all these factors before you make your final call.

13. What is Sherpa RoMEO Archiving Policy for International Journal of Energy Research?

SHERPA/RoMEO Database

We extracted this data from Sherpa Romeo to help researchers understand the access level of this journal in accordance with the Sherpa Romeo Archiving Policy for International Journal of Energy Research. The table below indicates the level of access a journal has as per Sherpa Romeo's archiving policy.

RoMEO Colour Archiving policy
Green Can archive pre-print and post-print or publisher's version/PDF
Blue Can archive post-print (ie final draft post-refereeing) or publisher's version/PDF
Yellow Can archive pre-print (ie pre-refereeing)
White Archiving not formally supported
FYI:
  1. Pre-prints as being the version of the paper before peer review and
  2. Post-prints as being the version of the paper after peer-review, with revisions having been made.

14. What are the most common citation types In International Journal of Energy Research?

The 5 most common citation types in order of usage for International Journal of Energy Research are:.

S. No. Citation Style Type
1. Author Year
2. Numbered
3. Numbered (Superscripted)
4. Author Year (Cited Pages)
5. Footnote

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16. Can I download International Journal of Energy Research in Endnote format?

Yes, SciSpace provides this functionality. After signing up, you would need to import your existing references from Word or Bib file to SciSpace. Then SciSpace would allow you to download your references in International Journal of Energy Research Endnote style according to Elsevier guidelines.

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