E4014 Construction Surveying Transmission Line Surveys
Objectives provide an understanding of the principles involved and methods used for surveying transmission lines describe factors that affect the location of transmission lines describe the basic principles of the survey and design of transmission lines
Objectives (cont) understand the survey & design required for a rural extension line display a knowledge of the surveys required for high voltage lines
Introduction Three main types of transmission lines (a) rural extension of the distribution network ( low & high voltage ) (b) extra high voltage lines carried on towers similar design principles apply to types (a) and (b) factors are more critical and methods more accurate for type (b)
Introduction Third type of transmission line ( c ) urban distribution network
Power Supply System Generation Transmission Distribution
Power Supply System Generation electrical energy is generated at the power stations using 3-phase a.c. generators voltage and frequency are controled producing a moderate voltage of, say, 13.8 kV
Power Supply System Transmission high voltage transmission lines are used to transfer electrical energy from the power stations to the load centres usually 3-phase overhead conductors suspended from insulators attached to towers, and called PRIMARY TRANSMISSION lines 275kV used in Qld, 330kV in NSW and 500kV in Vic
Power Supply System Transmission (cont) power transformers are used at generating stations to step up or step down the voltages choice of transmission voltage depends on the power to be transmitted and the distance involved
Single Wire Earth Return System ( SWER ) Low cost, low maintenance method of supplying power to isolated (country) areas An isolating transformer separates the main high voltage system ( 11kV or 33kV ) from the SWER line ( 12.7kV to 19.1kV ) separates the different earthing systems a single conductor overhead line feeds a distribution transformer, which steps-down the voltage to 2 circuits of 250V, or 1 circuit of 500V
Single Wire Earth Return System ( SWER ) The SWER system uses a unique method of passing the return current through the earth the resistivity of the earth must be within a certain range for the system to work effectively
Basic Principles of Transmission Line Design Ideal route between the point of power production and the point of consumption is a straight line Design Parameters and regional constraints affect the location of power lines
Design Parameters Height of Poles or Towers Span Length Foundations Angles
Design Parameters Height of Poles or Towers minimum height of transmission lines above the ground, for road crossings etc is laid down by an Act of Parliament most economic design attains this ground clearance and no more more height increases span length, but increases cost of pole or tower increases depth of pole, or increases foundation costs of tower
Design Parameters Span Length aim is to have as few poles or towers per kilometre poles should be placed to maximise span length, whilst maintaining the minimum clearance
Design Parameters Foundations location of poles or towers may affect the type of foundations required cost of towers in 1978 normal foundations - 4 legs, 5m deep, 0.5m deep $2500 special foundation - unstable soil $5000 rock anchor - rocky ground $5000 piled - mangroves, coastal flats $10000
Design Parameters Angles the pole or tower must be able to withstand the tension of an indirect pull poles will need to guyed on the half angle angle towers can be up to $20000 more expensive than an ordinary support tower essential to keep bends to a minimum
Design Parameters Summary of Design Parameters Height of Poles or Towers Span Length Foundations Angles
Constraints Built up areas topography recreational areas mountains, forests, rivers, swamps, flood zones recreational areas national parks, development areas
Constraints (cont) mining areas cultivation areas future uses highways, railways, airstrips environment aesthetics, erosion
Rural Extension Surveys Extend the power transmission network to small settlements and farm dwellings may carry high or low voltage low voltage < 650 volts high voltage > 650 volts normal extension is 11kV or 22kV high tension line
Rural Extension Surveys Proposed extension is designed by an electrical engineer and plotted on existing topographical and cadastral maps shows location of all properties to be served shows proposed location of transformers etc actual route location and design functions are carried out in the field by the SURVEYOR
Rural Extension Surveys Aim for minimum number of poles per kilometre minimum number of bends minimum ground clearance (6m at 49°C) minimum clearance over road cuttings railways telephone wires
Rural Extension Surveys minimum cut angle between telephone and power lines is 45° and parallel lines must be a minimum of 30m apart to avoid interference and power loss before undergrounding of power and telephone lines power lines were often placed 30 - 100m away from the phone line which was often in the road reserve advantages - easy connections to sheds and houses set back from road disadvantages - cultivation, access
Rural Extension Surveys Survey & Design Basic survey problem is to obtain a profile of the land over which the transmission line is to traverse and to negotiate obstacles unforeseen in the proposed design - trees, hedges, buildings etc. clinometer and chain total station GPS
Rural Extension Surveys Survey & Design traverse along proposed centreline from the last pole position note chainage and RL of grade changes and features continue past the next pole position plot profile horizontal and vertical scales are different governed by sag templates provided by Electricity Authority
Rural Extension Surveys Survey & Design
Rural Extension Surveys Survey & Design by using the sag template the position of the next pole is determined place a peg at the pole position only after the chainage and RL of the point have been compared to the plot surveyor should do a reconnaissance survey of the route before hand so that the topography is known to some extent
Rural Extension Surveys Survey & Design angles are read where a bend occurs where a spur or branch line occurs place a peg at the bend and at the half angle poles will have to be guyed
Rural Extension Surveys Survey & Design if line is traversing private property and easements are required, then occupation is also located running chainage to fence, angle along fence and distance along fence to cadastral corner
Rural Extension Surveys Survey & Design surveyor has measured the profile of the line the running chainages and RLs the angles at bends an accurate plot of the final design is made for construction, easement and record purposes
High Voltage Lines on Towers Basic design factors are the same the following are critical cost factor foundations length of route aesthetics and environment
High Voltage Lines on Towers Initial Design most suitable route is chosen based on voltage, conductor, tower specification topographical maps cadastral maps town planning schemes aerial photos local Authorities advice other Government Department’s advice ground reconnaissance
High Voltage Lines on Towers Initial Design report on the route is prepared costing scheduling approval environmental impact assessment comments of interested Public Authorities
High Voltage Lines on Towers Initial Design route maps are prepared 1:10 000 latest cadastral information number of lines proposed easement widths current land use
High Voltage Lines on Towers Initial Design contact is made with the owners and occupiers negotiate easements and access tracks property owners ( and other interested parties ) may object property owners may state their intended future use of the land if objections justify an amendment then the centre line may be re-routed
High Voltage Lines on Towers Survey of the Route high accuracy required control survey for whole of the route centre lines are cleared, surveyed and marked further public reaction may be forthcoming and the route may be deviated again keep lines to a minimum height for aesthetic reasons
High Voltage Lines on Towers Survey of the Route surveyor locates towers and access tracks appreciate land usage and erosion report all relevant circumstances particularly those affecting overall location field data must show enough data for the towers to be located and their positions to be checked in the office
Urban Distribution Network Transmission lines are entirely located in the road or street reserve span length is not as important poles are place to service as many consumers as possible design and survey is usually carried out by electrical engineers and their staff underground transmission conduits at least 5 times more expensive