Spelling suggestions: "subject:"voltage""
51 |
Engine Exhaust Treatment By Electrical Discharge Plasma : A More Realistic CaseDas, Subhankar 06 1900 (has links) (PDF)
No description available.
|
52 |
Some Aspects Of Surge Voltage Distribution In Transformers With Enhanced ResolutionSumangala, B V 07 1900 (has links) (PDF)
No description available.
|
53 |
An investigation into 88 KV surge arrester failures in the Eskom east grid traction networkMzulwini, Mduduzi Comfort 31 March 2023 (has links) (PDF)
The Eskom East Grid Traction Network (EGTN) supplying traction loads and distribution networks has experienced at least one surge arrester failure over the past ten years. These failures results in poor network reliability and customer dissatisfactions which are often overlooked. This is because reliability indices used in the reliability evaluation of transmission and distribution networks are different. It is suspected that fast transient faults in this network initiate system faults leading to surge arrester design parameter exceedances and poor network insulation coordination. Preliminary investigations in network suggest that transient studies were not done during network planning and design stages. This may have resulted in the lack of surge arrester parameter evaluations under transient conditions leading to improper surge arresters being selected and installed in this network resulting in surge arrester failures that are now evident. These failures may also have been exacerbated by the dynamic nature of traction loads as they are highly unbalanced, have poor power factors and emit high voltage distortions. Poor in-service conditions such as defects, insulation partial discharges and overheating, bolted faults in the network and quality of supply emissions can also contribute to surge arrester failures. To address problems arising with different reliability indices in these networks the reliability of the EGTN is evaluated. In this work the reliability evaluation of the EGTN is done by computing common distribution reliability indices using analytic and simulation methods. This is done by applying the analytic method in the EGTN by assessing network failure modes and effects analysis (FMEA) when the surge arrester fails in this network. The simulation method is applied by applying and modifying the MATLAB code proposed by Shavuka et al. [1]. These reliability indices are then compared with transmission reliability indices over the same period. This attempts to standardize reliability evaluations in these networks. To assess the impact of transient faults in the surge arrester parameter evaluation the EGTN is modelled and simulated by initiating transient faults sequentially in the network at different nodes and under different loading conditions. This is done by using Power System Blockset (PSB), Power System Analysis Toolbox (PSAT) and Alternate Transient Program (ATP) simulation tools and computing important surge arrester parameters i.e. continuous operating voltage, rated voltage, discharge current and energy absorption capability (EAC). These parameters are assessed by in the EGTN by evaluating computed surge arrester parameters against parameters provided by manufacturers, the Eskom 88 kV surge arrester specification and those parameters recommended in IEC 60099-4. To assess the impact and contribution of in-service conditions, faults and quality of supply emissions in surge arrester failures these contributing factors are investigated by assessing infra-red scans, fault analysis reports, results of the sampled faulted surge arrester in this network and quality of supply parameters around the time of failures. This study found that Eskom transmission and distribution network reliability indices can be standardized as distribution reliability indices i.e. SAIDI, SAIFI, CAIDI, ASAI and ASUI indices are similar to Eskom transmission indices i.e. SM, NOI, circuit availability index and circuit unavailability index respectively. Transient simulations in this study showed that certain surge arresters in the EGTN had their rated surge arrester parameters exceeded under certain transient conditions and loading conditions. These surge arresters failed as their discharge currents and EACs were exceeded under heavy and light network loading conditions. This study concluded that surge arresters whose discharge currents and EACs exceeded were improperly evaluated and selected prior to their installations in the EGTN. This study found the EAC to be the most import parameter in surge arrester performance evaluations. The Eskom 88 kV surge arrester specification was found to be inadequate, inaccurate and ambiguous as a number of inconsistencies in the usage of IEEE and IEC classified systems terminology were found. It was concluded that these inconsistencies may have led to confusions for manufacturers during surge arrester designs and selections in the EGTN. The evaluation of fault reports showed that two surge arrester failures in this network were caused by hardware failures such as conductor failure and poor network operating as the line was continuously closed onto a fault. There was no evidence that poor in-service and quality of supply emissions contributed to surge arrester failures in this network. PSB, PSAT and ATP simulation tools were found adequate in modelling and simulating the EGTN. However the PSB tool was found to be slow as the network expanded and the PSAT required user defined surge arrester models requiring detailed manufacture data sheets which are not readily available. ATP was found to be superior in terms of speed and accuracy in comparison to the PSB and PSAT tools. The MATLAB code proposed by Shavuka et al. [1] was found to be suitable and accurate in assessing transmission networks as EGTN's reliability indices computed from this code were comparable to benchmarked Eskom distribution reliability indices. The work carried out in this research will assist in improving surge arrester performance evaluations, the current surge arrester specification and surge arrester selections. Simulation tools utilized in this work show great potential in achieving this. Reliability studies conducted in this work will assist in standardizing reliability indices between Eskom's transmission and distribution divisions. In-service condition assessment carried out in this work will improve surge arrester condition monitoring and preventive maintenance practices.
|
54 |
The Modeling of Partial Discharge under Fast, Repetitive Voltage Pulses Using Finite-Element AnalysisRazavi Borghei, Seyyed Moein 04 1900 (has links)
By 2030, it is expected that 80% of all electric power will flow through power electronics systems. Wide bandgap power modules that can tolerate higher voltages and currents than silicon-based modules are the most promising solution to reducing the size and weight of power electronics systems. These wide-bandgap power modules constitute powerful building blocks for power electronics systems, and wide bandgap-based converter/power electronics building blocks are envisaged to be widely used in power grids in low- and medium-voltage applications and possibly in high-voltage applications for high-voltage direct current and flexible alternating current transmission systems. One of the merits of wide bandgap devices is that their slew rates and switching frequencies are much higher than silicon-based devices. However, from the insulation side, frequency and slew rate are two of the most critical factors of a voltage pulse, influencing the level of degradation of the insulation systems that are exposed to such voltage pulses. The shorter the rise time, the shorter the lifetime. Furthermore, lifetime dramatically decreases with increasing frequency. Thus, although wide bandgap devices are revolutionizing power electronics, electrical insulating systems are not prepared for such a revolution; without addressing insulation issues, the electronic power revolution will fail due to dramatically increased failure rates of electrification components. In this regard, internal partial discharges (PDs) have the most effect on insulation degradation. Internal PDs which occur in air-filled cavities or voids are localized electrical discharges that only partially bridge the insulation between conductors. Voids in solid or gel dielectrics are challenging to eliminate entirely and may result simply during manufacturing process. The objective of this study is to develop a Finite-Element Analysis (FEA) PD model under fast, repetitive voltage pulses, which has been done for the first time. The model is coded and implemented in COMSOL Multiphysics linked with MATLAB, and its simulation results are validated with experimental tests. Using the model, the influence of different parameters including void shape, void size, and void air pressure on PD parameters are studied. / M.S. / To decarbonize and reduce energy consumption for commercial aviation, the development of lightweight and ultra-efficient all-electric powertrain including electric motors, drives, and associated thermal management systems has been targeted. Using wide bandgap (WBG) power modules that can tolerate high voltages and currents can reduce the size and weight of the drive. However, the operation of WBG-based power converter can endanger the reliability of the electrified systems, most importantly, the insulation system. In this study, it is attempted to model the impact of such threats to the insulation system using numerical models.
|
55 |
Studies On Silicone Rubber Nanocomposites As Weathershed Material For HVDC Transmission Line InsulatorsVas, Joseph Vimal 07 1900 (has links) (PDF)
Outdoor insulators are one of the most important parts of a power system. The reliability of a power system depends also on the reliability of the insulators. The main functions of an insulator used for outdoor applications are to give the necessary insulation, provide the necessary mechanical support to the transmission line conductor and also to resist the various environmental stresses like pollution, ultra violet rays etc. Traditionally porcelain and glass insulators have been used for outdoor insulator applications. They are good insulators under normal conditions and the cap and pin arrangement allows them to take up the mechanical load of the line. But owing to their large weight and brittle nature they are susceptible to vandalism and also they have increased cost of installation and commissioning. But the main problem of porcelain and glass insulators is its performance under polluted environmental condition. Under wet and polluted conditions, the porcelain insulators allow the formation of a conducting layer on the surface which results in setting up of leakage current, dry band arcing and power loss. This problem is further augmented under dc voltages where the stress is unidirectional and the contaminant deposition is higher as compared to ac.
Polymeric insulators are a good alternative for porcelain and ceramic insulators for use especially under dc voltages because of their good pollution performance. The property of surface hydrophobicity resists the setting up of leakage currents and hence polymeric insulators help in reducing power loss. They are also light in weight and vandalism resistant and hence easier to install. But being polymeric, they form conductive tracks and erode when exposed to high temperatures which occur at the surface during dry band arcs and when exposed to corona discharges. The surface hydrophobicity is also temporarily lost when exposed to different electrical stresses. Silicone rubber is the most popular among the various choices of polymers for outdoor insulator applications. They have good surface hydrophobicity and tracking performance. But polymers in their pure form cannot be used as insulators because of their poor mechanical strength. Adding inorganic fillers into the polymer matrix not only improves its mechanical properties but also its erosion resistance. Micron sized Alumina Trihydrate (ATH) is used traditionally to improve the tracking and erosion resistance of polymeric insulators. A very high loading (up to 60%) is used. Adding such a high filler loading to the base polymer hampers its flexibility and the material processing. With the advent of nanotechnology, nano fillers have come into vogue. Studies conducted on nano filled polymers showed exciting results. A small amount of nano fillers in the polymer matrix showed significant improvement in the mechanical strength without hampering its flexibility. The electrical properties like tracking and erosion also improved with filler loading. Hence the use of nano filled silicone rubber is a good alternative for use as a high voltage insulator especially under dc voltages. Reports suggest that adding nano fillers into the silicone rubber matrix improves the tracking and erosion resistance and the corona degradation as compared to the unfilled samples under ac voltages. The literature on the dc performance of silicone rubber nano composites is scarce. So the present study aims to evaluate the performance of silicone rubber nano composites for tracking and erosion resistance and corona degradation under dc voltages. The tracking and erosion resistance under dc voltages was measured using the Inclined Plane Tracking and Erosion Resistance set up as per ASTM D2303 which was modified for dc voltage studies. The performance of nano Alumina and nano Silica fillers were evaluated under negative dc and the performance was compared with micron sized Alumina Trihydrate filled samples. The effect of filler loading was also studied. It was seen that the performance of the silicone rubber improved with filler loading. A small loading percentage of nano fillers were enough to give performance similar to silicone rubber filled with micron sized ATH filler. The silicone rubber performed better under negative dc as compared to ac and positive dc. The positive dc tests showed a migration of ions from the electrodes onto the sample surface. The increased surface conductivity resulted in very heavy erosion in the case of positive dc tested samples.
The corona aging studies were also conducted on silicone rubber nano composites. Nano silica was used as filler in this case. Different filler loadings were employed to understand the effect of filler loading. The corona was generated using a needle plane electrode and samples were exposed to both positive and negative dc corona. The samples were exposed to corona for different time intervals – 25 and 50 hours to study the effect of exposure time. The hydrophobicity, crack width and surface roughness were measured after the tests. Adding nano fillers into the polymer matrix improved the corona performance. With filler loading, the performance improved. The samples exposed to positive dc corona performed better than those under negative dc corona. The loss of hydrophobicity, surface cracks and the surface roughness was less in the case of positive dc corona tested samples. With exposure time, the performance of silicone rubber became poorer for positive dc corona tested samples. For the negative dc corona tested samples, the performance seemed to improve with exposure time.
The tracking and erosion resistance and the corona aging studies conducted showed that the performance of silicone rubber is improved by adding nano fillers into the polymer matrix. A small amount of nano filler loading was enough to perform similar to a heavily loaded micron filled sample. Hence nano fillers can be used as a good functional material to improve the performance of silicone rubber insulators especially under wet and polluted conditions.
|
56 |
A comparison of the performance of high-voltage insulator materials in a severely polluted coastal environmentVosloo, Wallace L. (Wallace Lockwood) 04 1900 (has links)
Thesis (PhD)--University of Stellenbosch, 2002. / ENGLISH ABSTRACT: The main aim of this research programme was to compare the relative
performance of different insulator materials used in South Africa when subjected
to a severe marine pollution environment. A test programme and procedure, test
facility and instrumentation were established. Some novel instrumentation and
monitoring equipment were developed and built specifically for this research
programme, supported by data analysing software programs. In order to
compare material performance only, all non-material design variables between
the test insulators had to be removed (e.g. creepage distance, connecting length,
inter-shed spacing, profile, etc.). To achieve this some of the test insulators had
to be specially manufactured. Leakage current, electrical discharge activity,
climatic and environmental data was collected successfully over a one-year test
period, starting with new test insulators.
The peak and energy values of the leakage current were identified as the two
main parameters needed to describe the leakage current activity on the test
insulators. A correlation was found between the climatic and environmental data
and the leakage current data, and it was found that the leakage current can be
determined successfully from some of the climatic and environmental parameters
monitored by using multiple regression techniques. Surface conductivity and
energy were found to be the best parameters to show the maximum and
continuous interaction of the insulator material surface with the electrolytic
pollution layer. A natural ageing and pollution test procedure was developed,
which has become a South African standard and is gaining international
acceptance.
A model and hypothesis are proposed to describe the electrical discharge activity
that takes place on the test insulators and explain the difference in leakage
current performance of the various materials.
Keywords: Insulator, Pollution, High Voltage, Leakage current, Material
performance. / AFRIKAANSE OPSOMMING: Die hoofdoel van hierdie navorsingsprogram was om die relatiewe prestasie van
verskillende isolatormateriale wat in Suid-Afrika gebruik word te vergelyk in 'n
swaar besoedelde marine omgewing. 'n Toetsprogram en prosedure, toets
fasiliteit en instrumentasie is gevestig. 'n Paar nuwe instrumente en moniteer
toerusting is ontwikkel en gebou spesifiek vir hierdie navorsingsprogram, gesteun
deur data analise sagteware programme. Ten einde slegs materiaalprestasie te
vergelyk, moes alle nie-materiaal ontwerpsveranderlikes tussen die toetsisolators
verwyder word (bv. kruipafstand, konnekteer lengte, tussen-skerm spasiëring,
profiel, ens.). Om dit reg te kry moes sommige van die toetsisolators spesiaal
vervaardig word. Lekstroom, elektriese ontladingsaktiwiteit, klimaat en
omgewingsdata is suksesvol versameloor 'n een-jaar toetsperiode, beginnende
met nuwe toets isolators.
Die piek en energie waardes van die lekstroom is identifiseer as die twee hoof
parameters wat nodig is om die lekstroomaktiwiteit op die toetsisolators te
beskryf. 'n Korrelasie is gevind tussen die klimaat- en omgewingsdata en die
lekstroom data, en dit is gevind dat die lekstroom data suksesvol bepaal kan
word van sekere van die klimaat- en omgewingsparameters wat gemoniteer is
deur veelvoudige regressie tegnieke te gebruik. Oppervlakskonduktiwiteit en
energie is gevind die beste parameters te wees om die maksimum en kontinue
interaksie van die isolatormateriaaloppervlak met die elektrolitiese
besoedelingslaag aan te toon. 'n Natuurlike veroudering en besoedeling
toetsprosedure is ontwikkel, wat 'n Suid-Afrikaanse standaard geword het en
besig is om internastionale aanvaarding te wen.
'n Model en hipotese word voorgestelom die elektriese ontladingsaktiwiteit wat
op die toetsisolators plaasvind te beskryf en om die verskil in lekstroomprestasie
van die verskeie materiale te verduidelik.
S/eufelwoorde: Isolator, Besoedeling, Hoog Spanning, Leek stroom, Materiaal
prestasie.
|
57 |
Life assessment and life extension of high voltage equipment in transmission substations.Singh, Omchand. January 2004 (has links)
In order to sustain transmission grid availability and reliability it is imperative that the
condition of vital and costly high voltage equipment is ascertained on a continuous or
regular basis. It is necessary to establish the effective diagnostic tools or surveillance
devices that can be used to assess equipment condition.
Emphasis has been placed on refining well-established and more novel but
developing condition assessment techniques. It is important to note that condition
assessment of equipment also allows the opportunity to predict failure. Based on a
complete and systematic assessment, the failure of defective equipment may be
evident or predicted in time, thus preventing a forced outage and loss of valuable
'system minutes'. It has also become necessary to extend the life of existing
equipment since most of them are reaching the end of their useful life. Replacement
strategies have proven to be ineffective due to financial and resource constraints
experienced by utilities.
Life extension is the work required to keep equipment operating economically beyond
its anticipated life, with optimum availability, efficiency and safety. One of its principal
components is condition assessment, with the possibility of predicting remnant life.
As a result, refurbishment projects are then raised. Refurbishment by replacement,
uprating, modifications or change of design of certain key components to extend the
life usually requires a substantial amount of capital to be invested. These projects
must be economically justified.
This thesis focuses on establishing condition assessment techniques for major power
equipment such as power transformers. Assessment techniques for instrument
transformers and circuit breakers are included, since these are commonly replaced
or modified under refurbishment projects.
An experimental investigation was carried out to determine the effectiveness of
integrating data of two diagnostic techniques i.e. dissolved gas analysis (on-line) and
acoustic detection of partial discharges. It was found that there is a correlation
between data obtained from an acoustic detection system and an on-line single gas
(Hydrogen) analyser. By integrating the data of both on-line monitoring systems, the
diagnostic process is further enhanced. In addition, the location of a fixed discharge
source was verified by using an acoustic detection system. Further, the sensitivity of
the acoustic technique to partial discharge inception voltage, relative to the
established electrical detection technique was determined for the experimental
arrangement used. The results obtained indicated that this is an effective technique
for the evaluation of activity within a transformer structure. / Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2004.
|
58 |
A study of fire-induced air-gap voltage breakdown characteristics under HVDC conditions.Ntshangase, Zola. January 2012 (has links)
This dissertation investigates the role that is played by high temperatures of air gaps on the
breakdown voltage levels under DC positive and negative polarity applied voltages. Due to
past experience of AC transmission lines tripping as a result of sugar-cane fires that occur
under these lines during cultivation seasons, this study was initiated to investigate this effect
under DC applied voltages.
Results were obtained from laboratory work conducted and these were closely analysed to
understand the behaviour of air gaps under these conditions. A 17mm2 square-cut brass rodrod
electrode configuration was used to carry out these tests at the various air gap
temperatures. These were induced by a gas burner for both the positive and negative
polarities at 200C – 3000C for the 10 mm – 150 mm air gap range and 200C – 1500C for the
200 mm – 500 mm air gap range. Later particles were introduced into the air gap to
determine the subsequent behaviour. These were introduced vertically from the top into an
air gap via a vibrating micro sieve mechanism to regulate the consistency of the introduction
of these particles in the air gap.
A reduction of 55% and 50% was observed on the breakdown voltage under positive and
negative polarity applied voltages respectively from ambient conditions to 3000C.
Additionally the breakdown behaviour of both negative and positive DC was found to be
linear which is similar to the AC case. However, air gaps subjected to positive DC applied
voltages were found to portray an inferior dielectric strength as opposed to the equivalent
negative DC polarity.
The study found that the effect of particles in the air gap is practically negligible and that for
practical purposes, only the temperature effect plays a role due to the reduced air density at
high temperatures.
Empirical models for both the positive and negative DC polarities have been proposed by the
study that incorporate the effect of the temperature in the air gap to enable the determination
or prediction of the breakdown voltage level at various temperatures. These models may be
utilised for DC transmission line design for servitudes in areas that are known to be prone to
fires. / Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2012.
|
59 |
A comparison of the performance of high-voltage insulator materials in a severely polluted coastal environmentVosloo, Wallace L. (Wallace Lockwood) 04 1900 (has links)
Thesis (PhD)--University of Stellenbosch, 2002. / ENGLISH ABSTRACT: The main aim of this research programme was to compare the relative
performance of different insulator materials used in South Africa when subjected
to a severe marine pollution environment. A test programme and procedure, test
facility and instrumentation were established. Some novel instrumentation and
monitoring equipment were developed and built specifically for this research
programme, supported by data analysing software programs. In order to
compare material performance only, all non-material design variables between
the test insulators had to be removed (e.g. creepage distance, connecting length,
inter-shed spacing, profile, etc.). To achieve this some of the test insulators had
to be specially manufactured. Leakage current, electrical discharge activity,
climatic and environmental data was collected successfully over a one-year test
period, starting with new test insulators.
The peak and energy values of the leakage current were identified as the two
main parameters needed to describe the leakage current activity on the test
insulators. A correlation was found between the climatic and environmental data
and the leakage current data, and it was found that the leakage current can be
determined successfully from some of the climatic and environmental parameters
monitored by using multiple regression techniques. Surface conductivity and
energy were found to be the best parameters to show the maximum and
continuous interaction of the insulator material surface with the electrolytic
pollution layer. A natural ageing and pollution test procedure was developed,
which has become a South African standard and is gaining international
acceptance.
A model and hypothesis are proposed to describe the electrical discharge activity
that takes place on the test insulators and explain the difference in leakage
current performance of the various materials.
Keywords: Insulator, Pollution, High Voltage, Leakage current, Material
performance. / AFRIKAANSE OPSOMMING: Die hoofdoel van hierdie navorsingsprogram was om die relatiewe prestasie van
verskillende isolatormateriale wat in Suid-Afrika gebruik word te vergelyk in 'n
swaar besoedelde marine omgewing. 'n Toetsprogram en prosedure, toets
fasiliteit en instrumentasie is gevestig. 'n Paar nuwe instrumente en moniteer
toerusting is ontwikkel en gebou spesifiek vir hierdie navorsingsprogram, gesteun
deur data analise sagteware programme. Ten einde slegs materiaalprestasie te
vergelyk, moes alle nie-materiaal ontwerpsveranderlikes tussen die toetsisolators
verwyder word (bv. kruipafstand, konnekteer lengte, tussen-skerm spasiëring,
profiel, ens.). Om dit reg te kry moes sommige van die toetsisolators spesiaal
vervaardig word. Lekstroom, elektriese ontladingsaktiwiteit, klimaat en
omgewingsdata is suksesvol versameloor 'n een-jaar toetsperiode, beginnende
met nuwe toets isolators.
Die piek en energie waardes van die lekstroom is identifiseer as die twee hoof
parameters wat nodig is om die lekstroomaktiwiteit op die toetsisolators te
beskryf. 'n Korrelasie is gevind tussen die klimaat- en omgewingsdata en die
lekstroom data, en dit is gevind dat die lekstroom data suksesvol bepaal kan
word van sekere van die klimaat- en omgewingsparameters wat gemoniteer is
deur veelvoudige regressie tegnieke te gebruik. Oppervlakskonduktiwiteit en
energie is gevind die beste parameters te wees om die maksimum en kontinue
interaksie van die isolatormateriaaloppervlak met die elektrolitiese
besoedelingslaag aan te toon. 'n Natuurlike veroudering en besoedeling
toetsprosedure is ontwikkel, wat 'n Suid-Afrikaanse standaard geword het en
besig is om internastionale aanvaarding te wen.
'n Model en hipotese word voorgestelom die elektriese ontladingsaktiwiteit wat
op die toetsisolators plaasvind te beskryf en om die verskil in lekstroomprestasie
van die verskeie materiale te verduidelik.
S/eufelwoorde: Isolator, Besoedeling, Hoog Spanning, Leek stroom, Materiaal
prestasie.
|
60 |
A Macroscopic Physical Model For Lightning Return StrokeRaysaha, Rosy Balaram 12 1900 (has links) (PDF)
In the design of most of the modern systems, lightning threat needs to be considered at the design phase itself. This demands a suitable model and owing to associated complexity, only simplified modeling have been attempted. As a consequence, it does not provide adequate insight into the phenomena. Considering these, a more realistic time-¬ domain electromagnetic model for the return stroke current evolution has been developed by incorporating the following underlying physical processes: (i) excitation formed by the electric field due to charge distribution along the channel, cloud and that induced on ground, (ii) the transient enhancement of series conductance at the bridging regime, which initiates the return stroke,( iii) the non¬linear variation of channel conductance along with (iv) the associated dynamic Electromagnetic Fields(EMFs) that supports the current evolution.
The intended modeling begins from the instant of bridging and the pre-¬return stroke charge distribution along the channel is calculated using Charge Simulation Method(CSM). For the calculation of dynamic EMFs, the thin wire Time Domain Electric Field Integral Equation(TD¬EFIE) is employed The transient enhancement of conductance at the bridging/streamer region is emulated using Toepler’s spark law while that along the matured section of the channel is described by first order arc model. The macroscopic physical model developed depicts most of the salient features of current evolution and resulting remote electromagnetic fields in a self¬ consistent manner. The work is not limited by the simplifications adopted for the channel geometry.
The strength of the model was exploited for investigating a couple of practically important questions, one of which had divided opinion in the literature. Firstly, analysis showed that the "secondary" current waves generated by successive reflection within struck TGO and that fed by branches do not get reflected at the main wave front. It is shown that the dynamic spatial resistance profile of the channel at the main wave front is primarily responsible for this behavior. Secondly, it is shown that the abrupt change in radii at TGO ¬channel junction is mainly responsible for reflection at the junction.
In summary, a novel time-¬domain macroscopic physical model for the first return stroke of a downward cloud¬-to-¬ ground lightning has been successfully developed, which is capable of providing much deeper insight in to the complex phenomena.
|
Page generated in 0.0346 seconds