List the assessment methods to be used and the context and resources required for assessment. Copy and paste the relevant sections from the evidence guide below and then re-write these in plain English.
ELEMENTS | PERFORMANCE CRITERIA |
Elements describe the essential outcomes | Performance criteria describe the performance needed to demonstrate achievement of the element. Where bold italicised text is used, further information is detailed in the range of conditions section. |
1. Select open channel hydraulic methodology | 1.1 Identify monitoring objectives of the site and hydraulic calculation requirements. 1.2 Select methodology for open channel hydraulic calculations. 1.3 Identify hydraulic principles used for verification of calculations. 1.4 Select other methodologies to review initial calculations. |
2. Collect and review data for flow calculations | 2.1 Measure and collect appropriate data to calculate theoretical flows based on methodology selected. 2.2 Determine the hydraulic characteristics of a monitoring site. 2.3 Measure and collect appropriate data to calculate flows theoretically. 2.4 Estimate hydraulic coefficients based on observations. 2.5 Prepare records in a format suitable for dissemination. 2.6 Review data collected and subsequent calculations for inconsistencies against measured flows. |
3. Select the appropriate control structure | 3.1 Select the appropriate control structures based on the characteristics of the open channel and its catchment. 3.2 Identify and determine the method to calculate flow by using the appropriate formulae for the control structure. |
4. Calculate flow in open channels | 4.1 Select and use the appropriate formulae for calculating flows in open channels based on the characteristics of the open channel and its catchment. 4.2 Identify the limitations of the formulae. 4.3 Identify factors that would cause variations in the results. 4.4 Verify results by applying hydraulic principles and other methodologies. 4.5 Determine the characteristics of open channel pipe flow. |
5. Calculate flow from pressure measurements | 5.1 Determine flow-based calculations by using pressure instruments. 5.2 Make adjustments for absolute pressure instruments to measure head in open channels. 5.3 Make corrections in pressure measurements to allow for head measurement of salt water. |
Evidence required to demonstrate competence must satisfy all of the requirements of the elements and performance criteria. If not otherwise specified the candidate must demonstrate evidence of performance of the following on at least two occasions.
drawing velocity distribution curves for fluids in pipes or channels with both laminar flow and turbulent flow
using data to determine the value of roughness
using simple equations for determining channel friction with their appropriate application
calculating minor energy losses associated with enlargements, contractions and bends
calculating the gradual varied flow profiles in uniform channels when the discharge is known
interpreting and applying technical documentation to the collection, analysis and reporting of hydrographic data
using computer systems
using recording and reporting systems
calculating hydraulic energy gradients
distinguishing the applications and characteristics of notches and weirs, including type of the crest, shape of the notch, crest and conditions
distinguishing the characteristics of open channels including:
types of open channel
steadiness
uniformity
state of open channel flow
laminar
transitional and turbulent flow
critical
subcritical and supercritical flow
types of data (photographic, surveying, long-section and cross-section, topographic maps, historical)
using surveying techniques
identifying types of flows
verifying results by applying hydraulic principles and other methodologies such as using the continuity equation
Evidence required to demonstrate competence must satisfy all of the requirements of the elements and performance criteria. If not otherwise specified the depth of knowledge demonstrated must be appropriate to the job context of the candidate.
application of matrix algebra to systems of linear equations
graphical and algebraic methods for solving systems of linear, quadratic, exponential, logarithmic and trigonometric equations
principles of fluid statics, fluid dynamics and hydraulic mechanics
Pascal’s law and hydrostatic effect on submerged surfaces
distinction between laminar and turbulent flow
Hagen–Poiseuille equation
Darcy–Weisbach equation
Bernoulli’s equation
the effect of velocity variation on velocity head
equations for calculating the approximate value of the friction factor, the characteristics of flow through notches/weirs, including the use of these in channel flow measurement
flow conditions including:
laminar flow
turbulent flow
smooth, rough pipe and channel surfaces
full pipe flow
submerged flow conditions
backwater
critical flow
subcritical and supercritical flow
uniform flow
rapidly changing flow
weir and flumes behaviour under various flow conditions
Competency should be assessed in an actual workplace or in a simulated environment, with access to equipment and infrastructure appropriate to the outcome. Competency should be demonstrated over time to ensure the candidate is assessed across a variety of situations.
Assessors must satisfy the NVR/AQTF mandatory competency requirements for assessors.