The important thing to remember when gathering evidence is that the more evidence the better - that is, the more evidence you gather to demonstrate your skills, the more confident an assessor can be that you have learned the skills not just at one point in time, but are continuing to apply and develop those skills (as opposed to just learning for the test!). Furthermore, one piece of evidence that you collect will not usualy demonstrate all the required criteria for a unit of competency, whereas multiple overlapping pieces of evidence will usually do the trick!
From the Wiki University
What evidence can you provide to prove your understanding of each of the following citeria?
Evaluate design parameters.
|
|
Scope of work is established for fire hydrants, hose reels and distribution systems for wide span and high-rise building projects. Completed |
Evidence:
|
Design requirements are determined from plans, specifications and client briefs. Completed |
Evidence:
|
Cost-benefit analysis is conducted comparing a range of pipe materials and system designs. Completed |
Evidence:
|
Fire department, statutory and regulatory requirements and Australian and New Zealand standards for the design of fire hydrants, hose reels and distribution systems are analysed, interpreted and applied. Completed |
Evidence:
|
Manufacturer requirements and trade, technical and sizing manuals are interpreted. Completed |
Evidence:
|
Additional research, including a desktop study, is conducted to outline design parameters. Completed |
Evidence:
|
Flow and pressure tests are conducted. Completed |
Evidence:
|
Performance requirements are established. Completed |
Evidence:
|
Plan and detail system components.
|
|
Layout of pipework and type and location of fittings and valves are planned. Completed |
Evidence:
|
Type, location and requirements for backflow prevention devices are detailed. Completed |
Evidence:
|
Pipe sizes, velocities, flows and pressures are calculated for a range of applications. Completed |
Evidence:
|
Approved materials, jointing methods and installation requirements are specified. Completed |
Evidence:
|
Hydrant booster, standpipe and hose reel assemblies are detailed. Completed |
Evidence:
|
Thrust blocks are designed for a range of applications. Completed |
Evidence:
|
Pipe fixings are designed for a range of applications. Completed |
Evidence:
|
Pump, pump controls and pumproom requirements are sized and detailed. Completed |
Evidence:
|
Water storage systems are designed and detailed. Completed |
Evidence:
|
Design and size systems.
|
|
Fire hydrant and hose reel systems are designed for a range of wide span and high-rise building applications. Completed |
Evidence:
|
Combined water supply, fire hydrant, hose reel and sprinkler systems are designed for a range of wide span and high-rise building applications. Completed |
Evidence:
|
Range of delivery systems is designed. Completed |
Evidence:
|
Fire hydrant and hose reel systems are designed and sized using computer software packages. Completed |
Evidence:
|
Prepare documentation.
|
|
Plans are prepared for a range of fire hydrant and hose reel systems. Completed |
Evidence:
|
Block plan is prepared for booster cabinet in accordance with Australian and New Zealand standards. Completed |
Evidence:
|
Specification for a fire hydrant and hose reel system is prepared. Completed |
Evidence:
|
Testing and commissioning schedule is prepared. Completed |
Evidence:
|
Operation and maintenance manual is produced. Completed |
Evidence:
|