Applying High-Temperature SuperconducTechnologies into Power Systems
الشريط الجانبي للمقالة
محتوى المقالة الرئيسي
الملخص
implementing of distribution and transmission
power systems for urban areas and for future renewable
energy to meet future demand is a challenging task when
conventional cables and transformers are considered.
Therefore, there are several methods, that have applied in
conational power systems to reduce power losses, voltage
regulator issues , capital cost of whole system and increasing
power delivering in urban areas and from offshore farms
,such as carefully sited and operated distributed generation
(DG) and distributed control techniques. However, these
techniques may raise others challenges in networks such as
stability, voltage regulators issues and increasing capital cost
of networks. Since High Temperature Superconductor
(HTS) cables exhibit zero resistance when cooled to the
boiling point of liquid nitrogen (77Keliven), they have the
potential to be used to address these issues in distribution
and transmission networks. Consequently, this paper
reviews super-conductor power systems: the work
previously achieved in the DC and AC superconductor
power systems and describes the materials and methods
which they used. In addition, it shows how the
superconductor technologies can address these issues when
they are used for distribution and transmission powe r
systems.
تفاصيل المقالة
هذا العمل مرخص بموجب Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
المراجع
M. A. Elsherif, P. C. Taylorand D.P. Hampshire, " Power Loss
Evaluat ion of HVDC and DC HTS Transmission Solut ions for
Round 3 Offshore Wind Farms in the United Kingdom". presented
at t he Int ernat ional Conference on Energy Syst ems and
Technologies (ICEST) , Cairo, Egypt .,2011.
M. Elsherif, and P. Taylor," Invest igat ing t he Impact of High
Temperat ure Superconduct or Cables on Elect rical Dist ribut ion
Net works, "Int ernat ional Conference on Energy Syst ems and
Technologies (ICEST), Cairo, Egypt .2010.
J. Jin, J. Zhang, Y. Guo, Y. Zhan, and J. Zhu, "Next generat ion of
DC power t ransmission technology using High Tc superconducting
cables," Curt in Universit y of Technology, pp. 1-6,2007.
J. X. Jin, "High efficient dc power t ransmission using high-
t emperature superconduct ors," Physica C: Superconductivity, vol.
, pp. 1443-1444, 2007.
J. Zhang and J. Jin, "Simulat ion analysis of DC power t ransmission
using high Tc superconduct ing cables," Industrial Technology,
IEEE, pp. 1-4,2008.
J. X. Jin and Q. Huang, "High-Temperat ure Super-conduct or DC
Power Transmission," IEEE Trans. Appl. Superconpercon, vol.
, p. 1,2005.
D. Salomonsson and A. Sannino, "Low-Volt age DC Dist ribut ion
Syst em for Commercial Power Syst ems wit h Sensit ive Elect ronic
Loads," Power Delivery, IEEE Transactions on, vol. 22, pp. 16201627,
P. Chowdhuri, C. Pallem, J. A. Demko, and M. J. Gouge,
"Feasibilit y of electric power t ransmission by DC superconducting
cables," Applied Superconductivit y, IEEE Transactions on, vol.
, pp. 3917-3926, 2005.
T. Weizhong and R. H. Lasset er, "An LVDC indust rial power
dist ribut ion syst em wit hout cent ral cont rol unit ," in Power
Elect ronics Specialists Conference, 2000.PESC 00.2000 IEEE 31st
Annual, pp. 979-984 vol.2,2000.
J. A. Demko, J. W. Lue, M. J. Gouge, J. P. St ovall, Z. But terworth,
U. Sinha, and R. L. Hughey, "Pract ical AC loss and t hermal
considerat ions for HTS power t ransmission cable syst ems,"
Applied Superconductivity, IEEE Transactions on, vol. 11, pp.
-1792, 2001.
H. Fengnian and W. Wu, "Analysis of LN2cooling syst em and
elect rical insulat ion cont ract ion for high Tc superconduct ing
cables," Power Delivery, IEEE Transactions on, vol. 14, pp. 743749,
S. K. Olsen, O. Tonnesen, and J. Ost ergaard, "Power applicat ions
for superconduct ing cables in Denmark," Applied
Superconduct ivity, IEEE Transactions on, vol. 9, pp. 1285-1288,
J. McCall, B. Gamble, and S. Eckroad, "Long Dist ance
Transmission Syst em Using VSC HVDC Terminals and
Superconduct ors for Bulk Transport of Renewable Energy,"