ORIGINAL_ARTICLE
Thermodynamic Modeling of Gaseous Hydrates
Almost all recent activities on the prediction of hydrate crystal formation conditions are based on the science of thermodynamics. In the study of equilibrium in the formation of hydrates, we are faced with different phases, and therefore the best way is to use the specific model of that phase for each phase so that we can calculate the fugacity’s more accurately. The most common thermodynamic model used to predict the properties of a gas phase is the "state equation". In the hydrate system, two types of additives are used. When the hydrate phenomenon is known to be harmful, inhibitors are used to prevent the formation of hydrates. In addition, due to the unique properties of hydrates, improvers are used to improve the conditions for hydrate formation. Thermodynamic models in the presence of inhibitors are modified by calculating the coefficient of activity and solubility of the components. Because in the presence of additives, the activity coefficient will no longer be one and on the other hand in the presence of inhibitors the solubility of gaseous components in the aqueous phase changes. The paper examines the model and its results in the presence of inhibitors. The inhibitors considered in this work are ethylene glycol and methanol and the prediction of hydrate formation in the presence of this type of inhibitor with state equations such as SRK and PR has been investigated.
https://www.jeires.com/article_130497_fe0595b6618f0345fc3e94585e8e89c5.pdf
2021-07-01
194
201
10.22034/jeires.2021.277824.1031
hydrate
Modeling
improver
Inhibitor
gas phase
Alireza
Bozorgian
a.bozorgian@mhriau.ac.ir
1
Department of Chemical Engineering, Mahshahr Branch, Islamic Azad University, Mahshahr, Iran
LEAD_AUTHOR
[1] B. Raei, A. Bozorgian, Journal of Chemistry Letters, 2020, 1, 143-148. [crossref], [Google Scholar], [Publisher]
1
[2] S. Karami, M. Javan Nikkhah, KB. otouhifar, V. Rahjoo, A. Ahmadpour, Iranian Journal of Plant Protection Science, 2020, 51, 129-146. [crossref], [Google Scholar], [Publisher]
2
[3] M. Bagheri Sadr, A. Bozorgian, Journal of Chemical Reviews, 2021, 3, 66-82. [crossref], [Google Scholar], [Publisher]
3
[4] A. Haghighi Asl, A. Ahmadpour, N. Fallah, Journal of Modeling in Engineering, 2018, 16, 295-307. [crossref], [Google Scholar], [Publisher]
4
[5] A. Bozorgian, Journal of Chemical Reviews, 2021, 3, 50-65. [crossref], [Google Scholar], [Publisher]
5
[6] N. Kayedi, A. Samimi, M. Asgari Bajgirani, A. Bozorgian, South African Journal of Chemical Engineering, 2021, 35, 153-158. [crossref], [Google Scholar], [Publisher]
6
[7] S.V. Mousavi, A. Bozorgian, N. Mokhtari, M.A. Gabris, H.R. Nodeh, Microchemical Journal, 2019, 145, 914-920. [crossref], [Google Scholar], [Publisher]
7
[8] A. Bozorgian, Advanced Journal of Chemistry, Section B: Natural Products and Medical Chemistry, 2021, 3, 54-61. [crossref], [Google Scholar], [Publisher]
8
[9] A. Haghighi Asl, A. Ahmadpour, N. Fallah, Applied Chemistry, 2017, 12, 253-286. [crossref], [Google Scholar], [Publisher]
9
[10] A. Bozorgian, A. Samimi, International Journal of New Chemistry, 2021, 8, 41-58. [crossref], [Google Scholar], [Publisher]
10
[11] M. Bagheri sadr, A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 252-261. [crossref], [Google Scholar], [Publisher]
11
[12] A. Bozorgian, Journal of Engineering in Industrial Research, 2020, 1, 1-19. [crossref], [Google Scholar], [Publisher]
12
[13] A. Bozorgian, Progress in Chemical and Biochemical Research, 2020, 3, 169-179. [crossref], [Google Scholar], [Publisher]
13
[14] A. Surendar, A. Bozorgian, A. Maseleno, L.K. Ilyashenko, M. Najafi, Inorganic Chemistry Communications, 2018, 96, 206-210. [crossref], [Google Scholar], [Publisher]
14
[15] A. Bozorgian, Advanced Journal of Chemistry, Section B, 2020, 2, 91-101. [crossref], [Google Scholar], [Publisher]
15
[16] A. Bozorgian, Advanced Journal of Science and Engineering, 2020, 1, 34-39. [crossref], [Google Scholar], [Publisher]
16
[21] J. Mashhadizadeh, A. Bozorgian, A. Azimi, Eurasian Chemical Communication, 2020, 2, 536-547. [crossref], [Google Scholar], [Publisher]
17
[22] A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 205-218. [crossref], [Google Scholar], [Publisher]
18
[23] M.E. Bidhendi, Z. Asadi, A. Bozorgian, A. Shahhoseini, M.A. Gabris, Environmental Progress & Sustainable Energy., 2020, 39, 13306. [crossref], [Google Scholar], [Publisher]
19
[24] A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 241-251. [crossref], [Google Scholar], [Publisher]
20
[25] A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 229-240. [crossref], [Google Scholar], [Publisher]
21
[26] A. Bozorgian, Chemical Review and Letters, 2020, 3, 94-97. [crossref], [Google Scholar], [Publisher]
22
[27] A. Bozorgian, Chemical Review and Letters, 2020, 3, 79-85. [crossref], [Google Scholar], [Publisher]
23
[28] A. Samimi, K. Kavosi, S. Zarinabadi, A. Bozorgian, Progress in Chemical and Biochemical Research, 2020, 3, 7-19. [crossref], [Google Scholar], [Publisher]
24
[29] A. Bozorgian, S. Zarinabadi, A. Samimi, Chemical Methodologies, 2020, 4, 477-493. [crossref], [Google Scholar], [Publisher]
25
[17]. A. Bozorgian, Z.A. Aboosadi, A. Mohammadi, B. Honarvar, A. Azimi, Prog. Chem. and Biochem. Rese., 2020, 3, 31-38. [crossref], [Google Scholar], [Publisher]
26
[18] A. Bozorgian, Journal of Engineering in Industrial Research, 2021, 2, 90-94. [crossref], [Google Scholar], [Publisher]
27
[19] A. Bozorgian, Progress in Chemical and Biochemical Research, 2021, 4, 207-219. [crossref], [Google Scholar], [Publisher]
28
[20] A. Bozorgian, Z.A. Aboosadi, A. Mohammadi, B. Honarvar, A. Azimi, Journal of Chemical and Petroleum Engineering, 2020, 54, 73-81. [crossref], [Google Scholar], [Publisher]
29
[30] A. Pourabadeh, B. Nasrollahzadeh, R. Razavi, A. Bozorgian, M. Najafi, Journal of Structural Chemistry, 2018, 59, 1484-1491. [crossref], [Google Scholar], [Publisher]
30
[31] A. Bozorgian, Z. Arab Aboosadi, A. Mohammadi, B. Honarvar, A. Azimi, Eurasian Chemical Communications, 2020, 2, 420-426. [crossref], [Google Scholar], [Publisher]
31
[32] S.E. Mousavi, A. Bozorgian, International Journal of New Chemistry, 2020, 7, 195-219. [crossref], [Google Scholar], [Publisher]
32
[33] A. Bozorgian, S. Zarinabadi, A. Samimi, Journal of Chemical Reviews, 2020, 2, 122-129. [crossref], [Google Scholar], [Publisher]
33
[34] A. Samimi, S. Zarinabadi, A. Bozorgian, A. Amosoltani, Progress in Chemical and Biochemical Research, 2020, 3, 46-54. [crossref], [Google Scholar], [Publisher]
34
[35] B. Raei, A. Bozorgian, Journal of Chemistry Letters, 2021, 1, 143-148. [crossref], [Google Scholar], [Publisher]
35
[36] F. Zare Kazemabadi, A. Heydarinasab, A. Akbarzadeh, M. Ardjmand, Artificial cells, nanomedicine, and biotechnology, 2019, 47, 3222-3230. [crossref], [Google Scholar], [Publisher]
36
[37] F. Zare Kazemabadi, A. Heydarinasab, A. Akbarzadehkhiyavi, M. Ardjmand, Chemical Methodologies, 2021, 5, 135-152. [crossref], [Google Scholar], [Publisher]
37
[38] S. M. S. Mirnezami, F. Zare Kazemabadi, A. Heydarinasab, Progress in Chemical and Biochemical Research, 2021, 4, 191-206. [crossref], [Google Scholar], [Publisher]
38
ORIGINAL_ARTICLE
Evaluation of Shielding Failure in UHV Transmission Lines by Improving the Simulation in the Corona Phenomenon
Corona phenomena are usually ignored in the numerical helical analysis of transient electromagnetic states or as a phenomenon that negatively affects power systems in analyzes. But in this study, we intend to evaluate the positive effects of corona on lightning strikes in the power system and show that the corona plays an important role in improving the reduction of the overvoltage range of lightning and improving the BIL size of transmission lines. In a high-pressure transmission line, when the voltage amplitude exceeds the intensity of the refractive field that surrounds the air, it occurs in the air around the ionization line, causing a corona to form around the transmission line and increasing the conductor radius. This paper investigates the improvement of the corona model in high-pressure alternating current transmission lines.
https://www.jeires.com/article_130813_a37e64592ee6c99094ea20f3fa2b93b8.pdf
2021-07-01
202
209
10.22034/jeires.2021.286029.1038
Lightning strike
Corona phenomenon
High pressure transmission line
Load-voltage curve
Ebadollah
Amouzad Mahdiraji
ebad.amouzad@gmail.com
1
Department of Engineering, Sari Branch, Islamic Azad University, Sari, Iran
LEAD_AUTHOR
[1] E.A. Mahdiraji, A. Yousefi Talouki, Journal of Chemical Reviews, 2020, 2, 284-291. [crossref], [Google Scholar], [Publisher]
1
[2] E.A. Mahdiraji, M.S. Amiri, Journal of Engineering in Industrial Research, 2020, 1, 111-122. [crossref], [Google Scholar], [Publisher]
2
[3] E.A. Mahdiraji, M.S. Amiri. Journal of Engineering Technology and Applied Sciences. 2020, 5, 133-147. [crossref], [Google Scholar], [Publisher]
3
[4] E. Sawacha, S. Naoum, D. Fong, International journal of project management, 1999, 17, 309-315. [crossref], [Google Scholar], [Publisher]
4
[5] C.M. Tam, S.X. Zeng, Z.M. Deng, Safety Science, 2004, 42, 569-586. [crossref], [Google Scholar], [Publisher]
5
[6] S.T. Ng, K.P. Cheng, R.M. Skitmore, Building and Environment, 2005, 40, 1347-1355. [crossref], [Google Scholar], [Publisher]
6
[7] P. Manu, M. Ankrah, D. Proverbs, S. Suresh, International Journal of Project Management, 2013, 31, 1017-1026. [crossref], [Google Scholar], [Publisher]
7
[8] A. Azadeh, Z. Gaeini, B. Moradi, Safety science, 2014, 32, 415-427. [crossref], [Google Scholar], [Publisher]
8
[9] Y. Wang, H.P. Lo, Journal of Management Development, 2003, 22, 483-526. [crossref], [Google Scholar], [Publisher]
9
[10] C.H. Lawshe, Personnel Psychology, 1975, 28, 563-575. [crossref], [Google Scholar], [Publisher]
10
[11] K.K. Kuan, K. Warwick, IEE Proceedings C: Generation, Transmission and Distribution, 1992, 139, 235-240. [crossref], [Google Scholar], [Publisher]
11
[12] E.A. Mahdiraji, N. Ramezani, 2015 2nd International Conference on Knowledge-Based Engineering and Innovation (KBEI), Tehran, Iran, 2015, 405-411. [crossref], [Google Scholar], [Publisher]
12
[13] E.A. Mahdiraji, M.S. Amiri. International Journal of Smart Electrical Engineering, 2020, 9, 13-21. [crossref], [Google Scholar], [Publisher]
13
[14] E.A. Mahdiraji, M. Amiri, Journal of Engineering Technology and Applied Sciences. 2020, 5, 133-147. [crossref], [Google Scholar], [Publisher]
14
[15] M.M.A. Aziz, E.S.T. El Din, D.K.L Ibrahim, M. Gilany, Electric Power Components and Systems, 2006, 34, 417–432. [crossref], [Google Scholar], [Publisher]
15
[16] X. Yang, M.S. Choi, S.J. Lee, C.W. Ten, S.I. Lim, IEEE Trans.Power System, 2008, 23, 1809-1816, [crossref], [Google Scholar], [Publisher]
16
[17] E.S.T.E. Din, M. Gilany, M.A. Aziz, D.K. Ibrahim, Power Engineering Society General Meeting, 2005. IEEE, 2005, 1, 80–86. [crossref], [Google Scholar], [Publisher]
17
[18] E.T. El Din, M. Gilany, M.A. Aziz, D.K. Ibrahim, Power Engineering Society General Meeting, 2005. IEEE, 2005, 3, 2485–2491. [crossref], [Google Scholar], [Publisher]
18
[19] K. Ming-Cai, W. Yang, Z. Jun-Fang, H. Guang, Y. Qiu, Sustainable Power Generation and Supply (SUPERGEN 2012), International Conference on, 2012, 1–6. [crossref], [Google Scholar], [Publisher]
19
[20] B. Raei, A. Bozorgian, Journal of Chemistry Letters, 2020, 1, 143-148. [crossref], [Google Scholar], [Publisher]
20
[21] S. Karami, M. Javan Nikkhah, KB. otouhifar, V. Rahjoo, A. Ahmadpour, Iranian Journal of Plant Protection Science, 2020, 51, 129-146. [crossref], [Google Scholar], [Publisher]
21
[22] M. Bagheri Sadr, A. Bozorgian, Journal of Chemical Reviews, 2021, 3, 66-82. [crossref], [Google Scholar], [Publisher]
22
[23] A. Haghighi Asl, A. Ahmadpour, N. Fallah, Journal of Modeling in Engineering, 2018, 16, 295-307. [crossref], [Google Scholar], [Publisher]
23
[24] A. Bozorgian, Journal of Chemical Reviews, 2021, 3, 50-65. [crossref], [Google Scholar], [Publisher]
24
[25] N. Kayedi, A. Samimi, M. Asgari Bajgirani, A. Bozorgian, South African Journal of Chemical Engineering, 2021, 35, 153-158. [crossref], [Google Scholar], [Publisher]
25
[26] S.V. Mousavi, A. Bozorgian, N. Mokhtari, M.A. Gabris, H.R. Nodeh, Microchemical Journal, 2019, 145, 914-920. [crossref], [Google Scholar], [Publisher]
26
[27] A. Bozorgian, Advanced Journal of Chemistry, Section B: Natural Products and Medical Chemistry, 2021, 3, 54-61. [crossref], [Google Scholar], [Publisher]
27
[28] A. Haghighi Asl, A. Ahmadpour, N. Fallah, Applied Chemistry, 2017, 12, 253-286. [crossref], [Google Scholar], [Publisher]
28
[29] A. Bozorgian, A. Samimi, International Journal of New Chemistry, 2021, 8, 41-58. [crossref], [Google Scholar], [Publisher]
29
[30] M. Bagheri sadr, A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 252-261. [crossref], [Google Scholar], [Publisher]
30
[31] A. Bozorgian, Journal of Engineering in Industrial Research, 2020, 1, 1-19. [crossref], [Google Scholar], [Publisher]
31
[32] A. Bozorgian, Progress in Chemical and Biochemical Research, 2020, 3, 169-179. [crossref], [Google Scholar], [Publisher]
32
[33] A. Surendar, A. Bozorgian, A. Maseleno, L.K. Ilyashenko, M. Najafi, Inorganic Chemistry Communications, 2018, 96, 206-210. [crossref], [Google Scholar], [Publisher]
33
[34] A. Bozorgian, Advanced Journal of Chemistry, Section B, 2020, 2, 91-101. [crossref], [Google Scholar], [Publisher]
34
[35] A. Bozorgian, Advanced Journal of Science and Engineering, 2020, 1, 34-39. [crossref], [Google Scholar], [Publisher]
35
[36] J. Mashhadizadeh, A. Bozorgian, A. Azimi, Eurasian Chemical Communication, 2020, 2, 536-547. [crossref], [Google Scholar], [Publisher]
36
[37] A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 205-218. [crossref], [Google Scholar], [Publisher]
37
[38] M.E. Bidhendi, Z. Asadi, A. Bozorgian, A. Shahhoseini, M.A. Gabris, Environmental Progress & Sustainable Energy., 2020, 39, 13306. [crossref], [Google Scholar], [Publisher]
38
[39] A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 241-251. [crossref], [Google Scholar], [Publisher]
39
[40] A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 229-240. [crossref], [Google Scholar], [Publisher]
40
[41] A. Bozorgian, Chemical Review and Letters, 2020, 3, 94-97. [crossref], [Google Scholar], [Publisher]
41
[47] A. Bozorgian, Chemical Review and Letters, 2020, 3, 79-85. [crossref], [Google Scholar], [Publisher]
42
[48] A. Samimi, K. Kavosi, S. Zarinabadi, A. Bozorgian, Progress in Chemical and Biochemical Research, 2020, 3, 7-19. [crossref], [Google Scholar], [Publisher]
43
[49] A. Bozorgian, S. Zarinabadi, A. Samimi, Chemical Methodologies, 2020, 4, 477-493. [crossref], [Google Scholar], [Publisher]
44
[42]. A. Bozorgian, Z.A. Aboosadi, A. Mohammadi, B. Honarvar, A. Azimi, Prog. Chem. and Biochem. Rese., 2020, 3, 31-38. [crossref], [Google Scholar], [Publisher]
45
[43] A. Bozorgian, Journal of Engineering in Industrial Research, 2021, 2, 90-94. [crossref], [Google Scholar], [Publisher]
46
[44] A. Bozorgian, Progress in Chemical and Biochemical Research, 2021, 4, 207-219. [crossref], [Google Scholar], [Publisher]
47
[45] A. Bozorgian, Z.A. Aboosadi, A. Mohammadi, B. Honarvar, A. Azimi, Journal of Chemical and Petroleum Engineering, 2020, 54, 73-81. [crossref], [Google Scholar], [Publisher]
48
[46] A. Pourabadeh, B. Nasrollahzadeh, R. Razavi, A. Bozorgian, M. Najafi, Journal of Structural Chemistry, 2018, 59, 1484-1491. [crossref], [Google Scholar], [Publisher]
49
[50] A. Bozorgian, Z. Arab Aboosadi, A. Mohammadi, B. Honarvar, A. Azimi, Eurasian Chemical Communications, 2020, 2, 420-426. [crossref], [Google Scholar], [Publisher]
50
[51] S.E. Mousavi, A. Bozorgian, International Journal of New Chemistry, 2020, 7, 195-219. [crossref], [Google Scholar], [Publisher]
51
[52] A. Bozorgian, S. Zarinabadi, A. Samimi, Journal of Chemical Reviews, 2020, 2, 122-129. [crossref], [Google Scholar], [Publisher]
52
[53] A. Samimi, S. Zarinabadi, A. Bozorgian, A. Amosoltani, Progress in Chemical and Biochemical Research, 2020, 3, 46-54. [crossref], [Google Scholar], [Publisher]
53
[54] B. Raei, A. Bozorgian, Journal of Chemistry Letters, 2021, 1, 143-148. [crossref], [Google Scholar], [Publisher]
54
[55] F. Zare Kazemabadi, A. Heydarinasab, A. Akbarzadeh, M. Ardjmand, Artificial cells, nanomedicine, and biotechnology, 2019, 47, 3222-3230. [crossref], [Google Scholar], [Publisher]
55
[56] F. Zare Kazemabadi, A. Heydarinasab, A. Akbarzadehkhiyavi, M. Ardjmand, Chemical Methodologies, 2021, 5, 135-152. [crossref], [Google Scholar], [Publisher]
56
[57] S. M. S. Mirnezami, F. Zare Kazemabadi, A. Heydarinasab, Progress in Chemical and Biochemical Research, 2021, 4, 191-206. [crossref], [Google Scholar], [Publisher]
57
ORIGINAL_ARTICLE
Transient Simulation of Lightning in the Transmission Line and Consideration of Corona Impact and Frequency Dependence and Analogy between Them
The waveform and amplitude of overvoltage generated in the transmission line due to lightning strikes are of great importance in the insulation coordination of electrical equipment in the power grid and the choice of lightning protection. Corona impact and frequency dependence are among the factors that cause overhead line attenuation and distortion. One of the existing skin effects that cause the radial parameters of the line to be dependent on the frequencies of lightning and cause changes in other parameters is corona strokes. It is necessary to consider the optimal insulation design and lightning protection and economic aspects in the transient characteristics caused by lightning transmission lines by analyzing the two issues of corona impact and frequency dependence. In this paper, lightning-induced transient simulations in transmission lines are considered by considering the effects of frequency dependence and corona shocks. The model simulation was performed by ATP-EMTP.
https://www.jeires.com/article_131026_7d127dc7678052e3c4110392f56d965c.pdf
2021-07-01
210
217
10.22034/jeires.2021.286745.1039
Transient waves
Lightning strike
corona
Frequency dependence
Seyed Mohammad
Shariatmadar
shariatmadar@iau-naragh.ac.ir
1
Electrical Engineering Department, Naragh Branch, Islamic Azad University, Naragh, Iran
AUTHOR
Ebadollah
Amouzad Mahdiraji
ebad.amouzad@gmail.com
2
Department of Engineering, Sari Branch, Islamic Azad University, Sari, Iran
LEAD_AUTHOR
[1] E.A. Mahdiraji, A. Yousefi Talouki, Journal of Chemical Reviews, 2020, 2, 284-291. [crossref], [Google Scholar], [Publisher]
1
[2] E.A. Mahdiraji, M.S. Amiri, Journal of Engineering in Industrial Research, 2020, 1, 111-122. [crossref], [Google Scholar], [Publisher]
2
[3] E.A. Mahdiraji, M.S. Amiri. Journal of Engineering Technology and Applied Sciences. 2020, 5, 133-147. [crossref], [Google Scholar], [Publisher]
3
[4] E. Sawacha, S. Naoum, D. Fong, International journal of project management, 1999, 17, 309-315. [crossref], [Google Scholar], [Publisher]
4
[5] C.M. Tam, S.X. Zeng, Z.M. Deng, Safety Science, 2004, 42, 569-586. [crossref], [Google Scholar], [Publisher]
5
[6] S.T. Ng, K.P. Cheng, R.M. Skitmore, Building and Environment, 2005, 40, 1347-1355. [crossref], [Google Scholar], [Publisher]
6
[7] P. Manu, M. Ankrah, D. Proverbs, S. Suresh, International Journal of Project Management, 2013, 31, 1017-1026. [crossref], [Google Scholar], [Publisher]
7
[8] A. Azadeh, Z. Gaeini, B. Moradi, Safety science, 2014, 32, 415-427. [crossref], [Google Scholar], [Publisher]
8
[9] Y. Wang, H.P. Lo, Journal of Management Development, 2003, 22, 483-526. [crossref], [Google Scholar], [Publisher]
9
[10] C.H. Lawshe, Personnel Psychology, 1975, 28, 563-575. [crossref], [Google Scholar], [Publisher]
10
[11] K.K. Kuan, K. Warwick, IEE Proceedings C: Generation, Transmission and Distribution, 1992, 139, 235-240. [crossref], [Google Scholar], [Publisher]
11
[12] E.A. Mahdiraji, N. Ramezani, 2015 2nd International Conference on Knowledge-Based Engineering and Innovation (KBEI), Tehran, Iran, 2015, 405-411. [crossref], [Google Scholar], [Publisher]
12
[13] E.A. Mahdiraji, M.S. Amiri. International Journal of Smart Electrical Engineering, 2020, 9, 13-21. [crossref], [Google Scholar], [Publisher]
13
[14] E.A. Mahdiraji, M. Amiri, Journal of Engineering Technology and Applied Sciences. 2020, 5, 133-147. [crossref], [Google Scholar], [Publisher]
14
[15] M.M.A. Aziz, E.S.T. El Din, D.K.L Ibrahim, M. Gilany, Electric Power Components and Systems, 2006, 34, 417–432. [crossref], [Google Scholar], [Publisher]
15
[16] X. Yang, M.S. Choi, S.J. Lee, C.W. Ten, S.I. Lim, IEEE Trans.Power System, 2008, 23, 1809-1816, [crossref], [Google Scholar], [Publisher]
16
[17] E.S.T.E. Din, M. Gilany, M.A. Aziz, D.K. Ibrahim, Power Engineering Society General Meeting, 2005. IEEE, 2005, 1, 80–86. [crossref], [Google Scholar], [Publisher]
17
[18] E.T. El Din, M. Gilany, M.A. Aziz, D.K. Ibrahim, Power Engineering Society General Meeting, 2005. IEEE, 2005, 3, 2485–2491. [crossref], [Google Scholar], [Publisher]
18
[19] K. Ming-Cai, W. Yang, Z. Jun-Fang, H. Guang, Y. Qiu, Sustainable Power Generation and Supply (SUPERGEN 2012), International Conference on, 2012, 1–6. [crossref], [Google Scholar], [Publisher]
19
[20] B. Raei, A. Bozorgian, Journal of Chemistry Letters, 2020, 1, 143-148. [crossref], [Google Scholar], [Publisher]
20
[21] S. Karami, M. Javan Nikkhah, KB. otouhifar, V. Rahjoo, A. Ahmadpour, Iranian Journal of Plant Protection Science, 2020, 51, 129-146. [crossref], [Google Scholar], [Publisher]
21
[22] M. Bagheri Sadr, A. Bozorgian, Journal of Chemical Reviews, 2021, 3, 66-82. [crossref], [Google Scholar], [Publisher]
22
[23] A. Haghighi Asl, A. Ahmadpour, N. Fallah, Journal of Modeling in Engineering, 2018, 16, 295-307. [crossref], [Google Scholar], [Publisher]
23
[24] A. Bozorgian, Journal of Chemical Reviews, 2021, 3, 50-65. [crossref], [Google Scholar], [Publisher]
24
[25] N. Kayedi, A. Samimi, M. Asgari Bajgirani, A. Bozorgian, South African Journal of Chemical Engineering, 2021, 35, 153-158. [crossref], [Google Scholar], [Publisher]
25
[26] S.V. Mousavi, A. Bozorgian, N. Mokhtari, M.A. Gabris, H.R. Nodeh, Microchemical Journal, 2019, 145, 914-920. [crossref], [Google Scholar], [Publisher]
26
[27] A. Bozorgian, Advanced Journal of Chemistry, Section B: Natural Products and Medical Chemistry, 2021, 3, 54-61. [crossref], [Google Scholar], [Publisher]
27
[28] A. Haghighi Asl, A. Ahmadpour, N. Fallah, Applied Chemistry, 2017, 12, 253-286. [crossref], [Google Scholar], [Publisher]
28
[29] A. Bozorgian, A. Samimi, International Journal of New Chemistry, 2021, 8, 41-58. [crossref], [Google Scholar], [Publisher]
29
[30] M. Bagheri sadr, A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 252-261. [crossref], [Google Scholar], [Publisher]
30
[31] A. Bozorgian, Journal of Engineering in Industrial Research, 2020, 1, 1-19. [crossref], [Google Scholar], [Publisher]
31
[32] A. Bozorgian, Progress in Chemical and Biochemical Research, 2020, 3, 169-179. [crossref], [Google Scholar], [Publisher]
32
[33] A. Surendar, A. Bozorgian, A. Maseleno, L.K. Ilyashenko, M. Najafi, Inorganic Chemistry Communications, 2018, 96, 206-210. [crossref], [Google Scholar], [Publisher]
33
[34] A. Bozorgian, Advanced Journal of Chemistry, Section B, 2020, 2, 91-101. [crossref], [Google Scholar], [Publisher]
34
[35] A. Bozorgian, Advanced Journal of Science and Engineering, 2020, 1, 34-39. [crossref], [Google Scholar], [Publisher]
35
[36] J. Mashhadizadeh, A. Bozorgian, A. Azimi, Eurasian Chemical Communication, 2020, 2, 536-547. [crossref], [Google Scholar], [Publisher]
36
[37] A. Bozorgian, International Journal of Advanced Studies in Humanities and Social Science, 2020, 9, 205-218. [crossref], [Google Scholar], [Publisher]
37
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ORIGINAL_ARTICLE
Evaluating the Relationship between Technology Management and Technology with Organizational Innovation
The purpose of this paper is to investigate the relationship between technology management and technology with organizational innovation. Case study: Melli Bank branches in Behshahr. The research method is applied according to the purpose and according to the data collection is descriptive and survey type. The statistical population of the study includes all official, contract, and contract employees of Melli Bank branches in Behshahr. A total of 134 people were reported, 98 of whom were randomly selected as a research sample according to Krejcie Morgan's table. The data collection tool in this study is a researcher-made questionnaire. In this study, in order to analyze the data, the Pearson correlation coefficient test and structural equations have been used. The results showed that perceived usefulness is related to technology orientation. Perceived ease is related to technology orientation. Brand orientation is related to technology orientation. Tendency to technology is related to the use of technology and technology. The use of technology is related to innovation.
https://www.jeires.com/article_131089_28153bf3a67b53607ad200a339ff22ce.pdf
2021-07-01
218
227
10.22034/jeires.2021.287213.1041
Perceived Ease
Technology Orientation
Brand Orientation
Technology and Technology
Innovation
Somayeh
Amouzad Khalili
somayeh.amouzad01@gmail.com
1
Department of Management & Accounting, Aliabad Katoul Branch, Islamic Azad University, Aliabad Katoul, Iran
AUTHOR
Komeil
Amouzad Mahdiraji
amoozad.k@gmail.com
2
Department of Management & Accounting, Aliabad Katoul Branch, Islamic Azad University, Aliabad Katoul, Iran
LEAD_AUTHOR
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Evaluation of Scattered and Random Magnetic Fields by Considering the Radius Caused by Charging
When the conductor voltage at the transmission line rises from a specific threshold called the corona threshold voltage, the conductor moves to the corona and increases the leakage and charging current around the conductor. In this paper, different ways of corona effect on the transmitted pulses on the transmission line and the equations of the transmission line with the presence of corona are evaluated. In this paper, by evaluating the emission of lightning pulses along the transmission line in the form of numerical analysis on the radius caused by charging, an attempt has been made to provide an accurate calculation. Therefore, one of the key points raised in this paper is the effect of transmission line equations and the effects of the desired magnetic field.
https://www.jeires.com/article_131088_086bd01e5bf0a7e6d6a4b62f68b9de29.pdf
2021-07-01
228
233
10.22034/jeires.2021.286746.1040
Faraday law
Magnetic field
transmission line equations
air conductor
Komeil
Amouzad Mahdiraji
amoozad.k@gmail.com
1
Department of Engineering, Behshahr Branch, Islamic Azad University, Behshahr, Iran
AUTHOR
Ebadollah
Amouzad Mahdiraji
ebad.amouzad@gmail.com
2
Department of Engineering, Sari Branch, Islamic Azad University, Sari, Iran
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Electricity storage is one of the most important issues in the electricity industry, which can generate many ancillary services such as load curve leveling, peak shaving, integration with renewable units, rotating reservations, etc. This paper presents a new and practical method for locating, sizing, and optimally planning vanadium current storage batteries in the above distribution substations. In this innovative method, using load forecasting, the amount of peak consumption per day is calculated, and based on it, several indicators are defined to prioritize the storage installation location. Then, according to the power consumption information in the selected substation, the optimal storage capacity for leveling the load curve is determined, and finally, optimal planning for charging and discharging the storage is presented. In this paper, for simulation of real consumption data of the above distribution network of Semnan city has been used.
https://www.jeires.com/article_130183_b99efb9f30cb6183a07f1ef10f87301f.pdf
2021-07-01
234
251
10.22034/jeires.2021.283615.1037
peak shaving
flow battery
Energy Storage
load curve leveling
Ebadollah
Amouzad Mahdiraji
ebad.amouzad@gmail.com
1
Department of Engineering, Sari Branch, Islamic Azad University, Sari, Iran
LEAD_AUTHOR
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ORIGINAL_ARTICLE
Energy Optimization in Furnaces and Use Packinox Conversion to Reduce Benzene Production
In this paper, the independent variables, modifiable system variables to maximize the objective function, reactors input temperature and intensity of return hydrogen gas flow are investigated. The results show increasing the furnace temperature, adjusting the furnace damper, increasing the intensity of the return hydrogen gas flow rate, using a plate conversion can reduce the amount of benzene in the gasoline and unauthorized carbon compounds. It dropped 0.4 percent, is very important for the environment. Also, by performing the calibration process, the error rate can reduce less than 3%, indicating the matching of unit data with the results is achieved.
https://www.jeires.com/article_132682_9a55f7ec5a32c2f68037d27811582967.pdf
2021-07-01
252
261
10.22034/jeires.2021.290050.1043
Calibration Process
Gasoline
Octanizer
Packinox
Temperature
Nabil
Vaeli
nabilvaeli@miau.ac.ir
1
Department of Chemical Engineering, Azad University branch of marvdasht, marvdasht of Shiraz
LEAD_AUTHOR
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ORIGINAL_ARTICLE
Error Coverage in Operating Room Processes by Combined RCA and Fuzzy ANP Method - Case Study: Government Hospital in Tehran Province
Various studies conducted in the world and Iran have shown that the issue of patient safety is one of the most important concerns of health care systems. Lack of safety and errors in the patient care system are the main concerns of the patient when receiving health services. Reducing avoidable injuries to patients should be a major concern of the health system. In this regard, the use of a systemic approach to investigate errors and make appropriate decisions to prevent their occurrence in the field of health and treatment has been approved. The method deals with network analysis of fuzzy process and radical analysis of cause (s) of case type. The method of data collection was direct observation, interview and review of documents. Super desision software was used to analyze the data. In the data analysis section, 14 types of important errors have been selected. In the ranking of errors, medical error was selected as the most important errors. The patient's head and neck, spinelectomy during partial nephrectomy and the patient's arest during catheterization were selected as the most important medical errors. Lack of a general protocol for the anesthesia team, non-uniform temperature of the operating room, lack of pre-up room, long shifts for staff and high fatigue and lack of technical specialist (medical engineering) in the operating room are important causes of errors in this operating room.
https://www.jeires.com/article_132862_99a3f40632e56460e8822143e1962d19.pdf
2021-07-01
262
279
10.22034/jeires.2021.291586.1044
Process network analysis
root cause analysis (cause)
operating room errors
Anita
Amini
anitaamini1272@gmail.com
1
Graduated from the Department of Industrial Engineering, Islamic Azad University, Malayer Branch, Malayer, Hamadan, Iran
LEAD_AUTHOR
Mohammad Mehdi
Sepehri
mohammad.mehdi.sepehri@gmail.com
2
Professor of the Department of Industrial Engineering, Tarbiat Modares University, Tehran, Tehran, Iran
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