Wyniki wyszukiwania dla: RADIATING CABLE

• The effect of cable duct diameter on the ampacity of high-voltage power cables

  Publikacja

  • F. Ratkowski
  • M. Kołtun
  • S. Czapp

  - Przegląd Elektrotechniczny - Rok 2022

  The ampacity of power cables depends, among others, on the conditions of heat dissipation from the cable to the environment. Cables are usually laid directly in the ground, but in some sections, they may be placed in ducts, which adversely affects the ampacity of the cable line. The paper presents heat transfer phenomena for cables installed in pipe-type ducts filled with air. The effect of cable duct diameter on this ampacity...

  Pełny tekst do pobrania w portalu

• Position Estimation in Corridors Along the Coupled Mode of Radiating Cables

  Publikacja

  • O. Błaszkiewicz
  • J. Sadowski
  • J. Stefański

  - SENSORS - Rok 2020

  Radiating cables are mostly used to provide radio communication in tunnels or corridors, but they can also be used to estimate the position of a mobile terminal along the cable. In this paper, a measuring receiver’s position was estimated by measuring the difference in the direct signal’s reception time, which was generated by a transmitter connected to one end of the radiating cable, and the delayed signal retransmitted from another...

  Pełny tekst do pobrania w portalu

• Application of Structural Control Systems for the Cables of Cable-Stayed Bridges: State-of-the-Art and State-of-the-Practice

  Publikacja

  • A. Javanmardi
  • K. Ghaedi
  • F. Huang
  • M. Hanif
  • A. Tabrizikahou

  - ARCHIVES OF COMPUTATIONAL METHODS IN ENGINEERING - Rok 2021

  Stay cables are one of the key elements of cable-stayed bridges and are characterized by lightweight, low inherent damping, and high flexibility. They are continuously subjected to small-to large-amplitude vibrations due to various types of dynamic loads that may, in the long term, cause fatigue and fracture problems for the cable system, and may eventually compromise the safety of cable-stayed bridges. Thus, several countermeasures...

  Pełny tekst do pobrania w serwisie zewnętrznym

• Overheating of underground power cable line due to its partial exposition to solar radiation

  Publikacja

  • S. Czapp
  • F. Ratkowski
  • S. Szultka
  • A. Tomaszewski

  - Rok 2019

  Current-carrying capacity of underground power cable lines depends, among others, on thermal resistivity of the soil and cables layout: trefoil formation, flat formation with or without spacing. If conditions for heat transfer in the ground are favorable, the current-carrying capacity is relatively high. Therefore, it generates risk of the power cables overheating, if part of the cable line is located vertically in the air, to...

  Pełny tekst do pobrania w serwisie zewnętrznym

• Design of power cable lines partially exposed to direct solar radiation – special aspects

  Publikacja

  • S. Czapp
  • S. Szultka
  • A. Tomaszewski

  - ENERGIES - Rok 2020

  Power cable lines are usually buried in the ground. However, in some cases, their ending sections are mounted along the supports of overhead lines. This leads to a situation where the cables are exposed to direct solar radiation and, consequentially, overheat. The paper presents the advanced computer modelling of power cables’ heating, considering their insolation as well as the effect of wind. The temperature and current-carrying...

  Pełny tekst do pobrania w portalu

• RADIATION MEASUREMENTS

  Czasopisma

  ISSN: 1350-4487

• Risk of power cables insulation failure due to the thermal effect of solar radiation

  Publikacja

  • S. Czapp
  • S. Szultka
  • F. Ratkowski
  • A. Tomaszewski

  - Eksploatacja i Niezawodność - Maintenance and Reliability - Rok 2020

  Low-voltage, as well as high-voltage power cable lines, are usually buried in the ground. The ampacity of the power cables in the ground mainly depends on the thermal resistivity of the soil, which may vary in a wide range. A common practice in power cable systems performance is to supply them from a pole of an overhead line. If so, a section of the line is located in free air and can be directly exposed to solar radiation. In...

  Pełny tekst do pobrania w portalu

• Ampacity of power cables exposed to solar radiation – recommendations of standards vs. CFD simulations

  Publikacja

  • S. Czapp
  • M. Czapp
  • S. Szultka
  • A. Tomaszewski

  - E3S Web of Conferences - Rok 2018

  The aim of the paper is to evaluate the ampacity of a low-voltage single power cable according to: 1) recommendations of the standard IEC 60287, 2) a Computational Fluid Dynamics method, implemented in Ansys software; and comparison of the results obtained for these two cases. Moreover, limitations of recommendations of the above mentioned standard are indicated.

  Pełny tekst do pobrania w portalu

• Round Table

  Czasopisma

  ISSN: 0035-8533

• Effect of solar radiation on current-carrying capacity of PVC-insulated power cables – the numerical point of view

  Publikacja

  • S. Czapp
  • S. Szultka
  • A. Tomaszewski
  • A. Szultka

  - Tehnicki Vjesnik-Technical Gazette - Rok 2019

  Power cables are usually buried in the soil, which results in their relatively high current-carrying capacity. However, there are cases in which the starting/final section of a cable line runs along a pole of an overhead power line. Power cables can be directly exposed to solar radiation then, and this negatively influences their current-carrying capacity as well as estimated life of the cables’ insulation. An analysis of thermal...

  Pełny tekst do pobrania w portalu