AHCIRG503 - Design irrigation, drainage and water treatment systems
Assessor Resource
AHCIRG503 Design irrigation, drainage and water treatment systems
Assessment tool
Version 1.0 Issue Date: June 2024
This unit of competency describes the skills and knowledge required to design irrigation, draining and water treatment systems.
It applies to individuals who analyse information and exercise judgement to complete a range of skilled activities and demonstrate deep knowledge in a specific technical area. They have accountability for the work of others and analyse, design and communicate solutions to a range of complex problems. All work is carried out to comply with workplace procedures.
No occupational licensing, legislative or certification requirements are known to apply to this unit at the time of publication.
You may want to include more information here about the target group and the purpose of the assessments (eg formative, summative, recognition)
Evidence Required
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.
Element
Performance criteria
Elements describe the essential outcomes.
Performance criteria describe the performance needed to demonstrate achievement of the element.
1. Determine design requirements
1.1 Analyse water quantity and quality needs for a particular crop or situation so that an estimation can be made for sufficiency and timeliness
1.2 Evaluate water transfer, recharge, reuse and harvesting systems
1.3 Determine water collecting and storing processes that do not degrade the water quality
1.4 Determine construction specifications that satisfy organisational and regulatory requirements
1.5 Identify and protect environmentally sensitive areas as required by local, State and National legislation
1.6 Investigate regional geology and geography so that a prediction can be made on the sustainability of irrigation, drainage, storage and treatment system
1.7 Conduct a site investigation to assess type of soil, depth of soil, depth of ground water, water salinity, and structural or chemical impediments and to determine the most cost effective irrigation, drainage, treatment and storage systems
1.8 Document design calculations and decisions
2. Define pumping and power systems
2.1 Identify pumps that can deliver water efficiently when needed, from the water storage at the flow and at the pressure required to operate the distribution system to the design specifications
2.2 Select pump motor combinations that are efficient, reliable, functional, serviceable and flexible for the intended application
2.3 Determine energy requirements and layout of electricity lines and check with local authorities
2.4 Optimise the relationship between capital and operational costs including a comparison of energy sources
2.5 Document performance indicators, design calculations and decisions
2.6 Design construction specifications that define work required to make suitable pumping and power systems available
3. Design an irrigation distribution system
3.1 Investigate regional geology and geography so that a prediction can be made on the sustainability of irrigation
3.2 Evaluate distribution systems and design with respect to a range of key variables
3.3 Size pipes, valves and fittings according to design system specifications so that capital cost is balanced against operation costs over the anticipated system life
3.4 Calculate and document flows, water levels and pressures so that they are within the acceptable tolerances for optimum performance
3.5 Include mechanisms for controlling and adjusting pressure and confirm isolation valves to direct water to areas with different irrigation schedules
3.6 Design distribution and monitoring systems to meet industry recommendations and calculate distribution system flow and velocity
3.7 Design construction plans and specifications that define the work required to achieve the required standards of uniformity and efficiency of water application
4. Design a drainage, storage and treatment system
4.1 Document predictions of leaching fractions and salt movements and develop soil amelioration and drainage management plans
4.2 Determine the need for leachate interception and dewatering system, and if required, prepare construction specifications for interception and collection, water treatment, disposal and reuse or recycle
4.3 Design drainage, storage and treatment systems to meet industry recommendations and calculate distribution system flow and velocity
4.4 Produce construction plans and specifications that define the work required to achieve standards of uniformity and efficiency of the drainage, storage and treatment systems
4.5 Determine if drains and structures are capable of carrying the design water volumes and intensities
4.6 Minimise damage from drainage, storage and treatment system issues
4.7 Use hydrological calculations to predict volumes and rates of surface run-off
5. Determine capital expense budget
5.1 Document design calculations and decisions and communicate relevant information through plans, specifications and manuals
5.2 Determine and document materials requirements from plans and specifications
5.3 Estimate labour requirements based upon documented work schedule with reasonable allowance for variances in work schedules
5.4 Base costing attributed to each component on quoted information from suppliers, or sound analysis of individual elements
5.5 Confirm budget output by checking with an appropriately experienced and qualified person
6. Determine operating expense budget
6.1 Determine an operating expense budget that includes all expenses applicable to the completed irrigation, drainage, storage and treatment systems
The candidate must be assessed on their ability to integrate and apply the performance requirements of this unit in a workplace setting. Performance must be demonstrated consistently over time and in a suitable range of contexts.
The candidate must provide evidence that they can:
collect and analyse information
compare costings
develop budgets
develop system specifications
document outcomes
identify adverse environmental impacts of irrigation, drainage, water treatment and storage activities and take appropriate remedial action
identify system design requirements
The candidate must demonstrate knowledge of:
contractual development and obligations
control and monitoring systems
cost/benefit analysis
design processes
developments in irrigation, drainage, storage and treatment technology
environmental impacts of irrigation, drainage and water treatment
soil types and their impact on the systems
work health and safety and environmental protection legislation and regulations, codes of practice and enterprise policies and procedures
Assessors must satisfy current standards for RTOs.
Submission Requirements
List each assessment task's title, type (eg project, observation/demonstration, essay, assingnment, checklist) and due date here
Assessment task 1: [title] Due date:
(add new lines for each of the assessment tasks)
Assessment Tasks
Copy and paste from the following data to produce each assessment task. Write these in plain English and spell out how, when and where the task is to be carried out, under what conditions, and what resources are needed. Include guidelines about how well the candidate has to perform a task for it to be judged satisfactory.
Element
Performance criteria
Elements describe the essential outcomes.
Performance criteria describe the performance needed to demonstrate achievement of the element.
1. Determine design requirements
1.1 Analyse water quantity and quality needs for a particular crop or situation so that an estimation can be made for sufficiency and timeliness
1.2 Evaluate water transfer, recharge, reuse and harvesting systems
1.3 Determine water collecting and storing processes that do not degrade the water quality
1.4 Determine construction specifications that satisfy organisational and regulatory requirements
1.5 Identify and protect environmentally sensitive areas as required by local, State and National legislation
1.6 Investigate regional geology and geography so that a prediction can be made on the sustainability of irrigation, drainage, storage and treatment system
1.7 Conduct a site investigation to assess type of soil, depth of soil, depth of ground water, water salinity, and structural or chemical impediments and to determine the most cost effective irrigation, drainage, treatment and storage systems
1.8 Document design calculations and decisions
2. Define pumping and power systems
2.1 Identify pumps that can deliver water efficiently when needed, from the water storage at the flow and at the pressure required to operate the distribution system to the design specifications
2.2 Select pump motor combinations that are efficient, reliable, functional, serviceable and flexible for the intended application
2.3 Determine energy requirements and layout of electricity lines and check with local authorities
2.4 Optimise the relationship between capital and operational costs including a comparison of energy sources
2.5 Document performance indicators, design calculations and decisions
2.6 Design construction specifications that define work required to make suitable pumping and power systems available
3. Design an irrigation distribution system
3.1 Investigate regional geology and geography so that a prediction can be made on the sustainability of irrigation
3.2 Evaluate distribution systems and design with respect to a range of key variables
3.3 Size pipes, valves and fittings according to design system specifications so that capital cost is balanced against operation costs over the anticipated system life
3.4 Calculate and document flows, water levels and pressures so that they are within the acceptable tolerances for optimum performance
3.5 Include mechanisms for controlling and adjusting pressure and confirm isolation valves to direct water to areas with different irrigation schedules
3.6 Design distribution and monitoring systems to meet industry recommendations and calculate distribution system flow and velocity
3.7 Design construction plans and specifications that define the work required to achieve the required standards of uniformity and efficiency of water application
4. Design a drainage, storage and treatment system
4.1 Document predictions of leaching fractions and salt movements and develop soil amelioration and drainage management plans
4.2 Determine the need for leachate interception and dewatering system, and if required, prepare construction specifications for interception and collection, water treatment, disposal and reuse or recycle
4.3 Design drainage, storage and treatment systems to meet industry recommendations and calculate distribution system flow and velocity
4.4 Produce construction plans and specifications that define the work required to achieve standards of uniformity and efficiency of the drainage, storage and treatment systems
4.5 Determine if drains and structures are capable of carrying the design water volumes and intensities
4.6 Minimise damage from drainage, storage and treatment system issues
4.7 Use hydrological calculations to predict volumes and rates of surface run-off
5. Determine capital expense budget
5.1 Document design calculations and decisions and communicate relevant information through plans, specifications and manuals
5.2 Determine and document materials requirements from plans and specifications
5.3 Estimate labour requirements based upon documented work schedule with reasonable allowance for variances in work schedules
5.4 Base costing attributed to each component on quoted information from suppliers, or sound analysis of individual elements
5.5 Confirm budget output by checking with an appropriately experienced and qualified person
6. Determine operating expense budget
6.1 Determine an operating expense budget that includes all expenses applicable to the completed irrigation, drainage, storage and treatment systems
The candidate must be assessed on their ability to integrate and apply the performance requirements of this unit in a workplace setting. Performance must be demonstrated consistently over time and in a suitable range of contexts.
The candidate must provide evidence that they can:
collect and analyse information
compare costings
develop budgets
develop system specifications
document outcomes
identify adverse environmental impacts of irrigation, drainage, water treatment and storage activities and take appropriate remedial action
identify system design requirements
The candidate must demonstrate knowledge of:
contractual development and obligations
control and monitoring systems
cost/benefit analysis
design processes
developments in irrigation, drainage, storage and treatment technology
environmental impacts of irrigation, drainage and water treatment
soil types and their impact on the systems
work health and safety and environmental protection legislation and regulations, codes of practice and enterprise policies and procedures
Assessors must satisfy current standards for RTOs.
Copy and paste from the following performance criteria to create an observation checklist for each task. When you have finished writing your assessment tool every one of these must have been addressed, preferably several times in a variety of contexts. To ensure this occurs download the assessment matrix for the unit; enter each assessment task as a column header and place check marks against each performance criteria that task addresses.
Observation Checklist
Tasks to be observed according to workplace/college/TAFE policy and procedures, relevant legislation and Codes of Practice
Yes
No
Comments/feedback
Analyse water quantity and quality needs for a particular crop or situation so that an estimation can be made for sufficiency and timeliness
Evaluate water transfer, recharge, reuse and harvesting systems
Determine water collecting and storing processes that do not degrade the water quality
Determine construction specifications that satisfy organisational and regulatory requirements
Identify and protect environmentally sensitive areas as required by local, State and National legislation
Investigate regional geology and geography so that a prediction can be made on the sustainability of irrigation, drainage, storage and treatment system
Conduct a site investigation to assess type of soil, depth of soil, depth of ground water, water salinity, and structural or chemical impediments and to determine the most cost effective irrigation, drainage, treatment and storage systems
Document design calculations and decisions
Identify pumps that can deliver water efficiently when needed, from the water storage at the flow and at the pressure required to operate the distribution system to the design specifications
Select pump motor combinations that are efficient, reliable, functional, serviceable and flexible for the intended application
Determine energy requirements and layout of electricity lines and check with local authorities
Optimise the relationship between capital and operational costs including a comparison of energy sources
Document performance indicators, design calculations and decisions
Design construction specifications that define work required to make suitable pumping and power systems available
Investigate regional geology and geography so that a prediction can be made on the sustainability of irrigation
Evaluate distribution systems and design with respect to a range of key variables
Size pipes, valves and fittings according to design system specifications so that capital cost is balanced against operation costs over the anticipated system life
Calculate and document flows, water levels and pressures so that they are within the acceptable tolerances for optimum performance
Include mechanisms for controlling and adjusting pressure and confirm isolation valves to direct water to areas with different irrigation schedules
Design distribution and monitoring systems to meet industry recommendations and calculate distribution system flow and velocity
Design construction plans and specifications that define the work required to achieve the required standards of uniformity and efficiency of water application
Document predictions of leaching fractions and salt movements and develop soil amelioration and drainage management plans
Determine the need for leachate interception and dewatering system, and if required, prepare construction specifications for interception and collection, water treatment, disposal and reuse or recycle
Design drainage, storage and treatment systems to meet industry recommendations and calculate distribution system flow and velocity
Produce construction plans and specifications that define the work required to achieve standards of uniformity and efficiency of the drainage, storage and treatment systems
Determine if drains and structures are capable of carrying the design water volumes and intensities
Minimise damage from drainage, storage and treatment system issues
Use hydrological calculations to predict volumes and rates of surface run-off
Document design calculations and decisions and communicate relevant information through plans, specifications and manuals
Determine and document materials requirements from plans and specifications
Estimate labour requirements based upon documented work schedule with reasonable allowance for variances in work schedules
Base costing attributed to each component on quoted information from suppliers, or sound analysis of individual elements
Confirm budget output by checking with an appropriately experienced and qualified person
Determine an operating expense budget that includes all expenses applicable to the completed irrigation, drainage, storage and treatment systems
Forms
Assessment Cover Sheet
AHCIRG503 - Design irrigation, drainage and water treatment systems
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Assessment Record Sheet
AHCIRG503 - Design irrigation, drainage and water treatment systems
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