Unit of Competency Mapping – Information for Teachers/Assessors – Information for Learners

MEM234005A Mapping and Delivery Guide
Design hydrodynamic pumping systems

Version 1.0
Issue Date: May 2024


Qualification -
Unit of Competency MEM234005A - Design hydrodynamic pumping systems
Description This unit of competency covers the design of new or modified hydrodynamic pumping systems, including the layout; choice of motor and pumps, pipes and valves; the fluid source and delivery requirements of the system. It includes sustainability implications, occupational health and safety (OHS) and regulatory requirements.
Employability Skills This unit contains employability skills.
Learning Outcomes and Application This unit applies to the design of hydrodynamic pumping systems across all forms of manufacturing and engineering. Design activities may also include reverse engineering, design rectification or modifications of an existing design. It applies to pumping system designers and maintenance personnel, and those pursuing engineering or related qualifications and careers.Prior experience in the application of scientific principles, evaluation of hydrodynamic systems, mathematics, computer software and file handling is required.
Duration and Setting X weeks, nominally xx hours, delivered in a classroom/online/blended learning setting.
Prerequisites/co-requisites Not applicable.
Competency Field
Development and validation strategy and guide for assessors and learners Student Learning Resources Handouts
Activities 		Slides
PPT 		Assessment 1 Assessment 2 Assessment 3 Assessment 4
Elements of Competency Performance Criteria              
Element: Clarify the design brief and elaborate the specification
  • Establish required features and performance parameters of hydrodynamic pumping system
  • Confirm technical, commercial and environmental parameters to the brief or contract
  • Determine stakeholders to be consulted in design process
  • Assess OHS, regulatory, sustainability or environmental issues relevant to the design task
  • Confirm design brief, including budget and schedule, and provide preliminary advice on feasibility
       


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.

The evidence guide provides advice on assessment and must be read in conjunction with the performance criteria, required skills and knowledge, range statement and the Assessment Guidelines for the Training Package.

Critical aspects for assessment and evidence required to demonstrate competency in this unit

Assessors must be satisfied that the candidate can competently and consistently:

interpret features of plant and equipment and parameters to the brief or contract

advise client based on discipline knowledge and OHS and regulatory standards

research sustainability implications and current industrial design techniques

determine OHS, regulatory and risk management requirements

investigate and measure

model and calculate using appropriate software and validation techniques

generate and evaluate a range of solutions for feasibility against design criteria

design hydrodynamic pumping solution

communicate, negotiate and review with stakeholders and client throughout process to obtain agreement on proposal and sign-off on design

document design with drawings, specifications and instructions.

Context of and specific resources for assessment

This unit may be assessed on the job, off the job or a combination of both on and off the job. Where assessment occurs off the job, that is, the candidate is not in productive work, then a simulated working environment must be used where the range of conditions reflects realistic workplace situations. The competencies covered by this unit would be demonstrated by an individual working alone or as part of a team.

Where applicable, reasonable adjustment must be made to work environments and training situations to accommodate ethnicity, age, gender, demographics and disability.

Access must be provided to appropriate learning and/or assessment support when required. Where applicable, physical resources should include equipment modified for people with disabilities.

Method of assessment

Assessment must satisfy the endorsed Assessment Guidelines of the MEM05 Metal and Engineering Training Package.

Assessment methods must confirm consistency and accuracy of performance (over time and in a range of workplace relevant contexts) together with application of underpinning knowledge.

Assessment methods must be by direct observation of tasks and include questioning on underpinning knowledge to ensure its correct interpretation and application.

Assessment may be applied under project-related conditions (real or simulated) and require evidence of process.

Assessment must confirm a reasonable inference that competency is able not only to be satisfied under the particular circumstance, but is able to be transferred to other circumstances.

Assessment may be in conjunction with assessment of other units of competency where required.

Guidance information for assessment

Assessment processes and techniques must be culturally appropriate and appropriate to the language and literacy capacity of the candidate and the work being performed.

Submission Requirements

List each assessment task's title, type (eg project, observation/demonstration, essay, assignment, 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.

Required skills

Required skills include:

interpreting features of plant and equipment and parameters to the brief or contract

advising clients based on discipline knowledge and OHS and regulatory standards

researching sustainability implications and current industrial design techniques

determining OHS, regulatory and risk management requirements

investigating and measuring

investigating faults in existing designs and arriving at solutions

modelling and calculating using appropriate software and validation techniques

generating and evaluating a range of solutions for feasibility against design criteria

designing hydrodynamic pumping systems solution using current design methods

communicating, negotiating and reviewing with stakeholders and clients throughout the process

documenting design with drawings, specifications and instructions

Required knowledge

Required knowledge includes:

research and investigation methods

techniques for:

continuous improvement

problem solving and decision making

root cause analysis (RCA) or failure mode and effects analysis (FMEA) or design review based on failure mode (DRBFM),and Pareto analysis

contemporary engineering design methods

relevant engineering design software

design, research, modelling and computational methodologies applied to hydrodynamic pumping systems

documentation, drawings, specifications and instructions

OHS and regulatory requirements, codes of practice, standards, risk minimisation and regstration requirements

fundamentals of hydrodynamics, including properties of substances and conservation of energy principles

types of pumps, such as centrifugal, rotary and reciprocating

pumping systems specifications, such as head equations, performance curves, valves, flow rates and efficiency

pump placements

cavitations

rotodynamic pump performance parameters and specifications

series and parallel pumps

practical pump installations and operation problems

pumping special fluids, such as viscous fluids, slurries, Newtonian and non-Newtonian fluids

The range statement relates to the unit of competency as a whole. It allows for different work environments and situations that may affect performance. Bold italicised wording, if used in the performance criteria, is detailed below. Essential operating conditions that may be present with training and assessment (depending on the work situation, needs of the candidate, accessibility of the item, and local industry and regional contexts) may also be included.

Parameters to the design brief

The design brief may include the design of new equipment or fault analysis, rectification or modification to an existing design. Parameters to the design brief may include:

These may include:

determination of the degree of innovation and creativity expected by the client

design process limits and budgets

product cost limits and budgets

performance specification

equipment availability, capacities and restrictions

specified administrative, communication and approval procedures

other special features and limits in the design brief

OHS, regulatory, sustainability and environmental issues

OHS, regulatory, sustainability and environmental issues may include:

OHS Acts and regulations

relevant standards

industry codes of practice

risk assessments

registration requirements

safe work practices

minimising ecological and environmental footprint of process, plant and product

maximising economic benefit of process plant and product to the organisation and the community

minimising the negative OHS impact on employees, community and customer

state and territory regulatory requirements

Client

Client may be:

internal or external to the designer’s organisation

Range of solutions

Range of solutions may include those that:

satisfy the technical requirements of the design brief

are within budget

are able to be manufactured

meet any regulatory requirements

minimise environmental and sustainability impacts

Standards and codes

Standards and codes refer to all relevant Australian and international standards and codes applicable to a particular design task

System specifications

System specifications may include, but are not limited to:

pump types

system head requirements

pump performance requirements

duty point

flow rates

cavitation issues and control

power and efficiency

energy cost of pumping

valves for flow control

component layout

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
Establish required features and performance parameters of hydrodynamic pumping system 
Confirm technical, commercial and environmental parameters to the brief or contract 
Determine stakeholders to be consulted in design process 
Assess OHS, regulatory, sustainability or environmental issues relevant to the design task 
Confirm design brief, including budget and schedule, and provide preliminary advice on feasibility 

Forms

Assessment Cover Sheet

MEM234005A - Design hydrodynamic pumping systems
Assessment task 1: [title]

Student name:

Student ID:

I declare that the assessment tasks submitted for this unit are my own work.

Student signature:

Result: Competent Not yet competent

Feedback to student

 

 

 

 

 

 

 

 

Assessor name:

Signature:

Date:

Assessment Record Sheet

MEM234005A - Design hydrodynamic pumping systems

Student name:

Student ID:

Assessment task 1: [title] Result: Competent Not yet competent

(add lines for each task)

Feedback to student:

 

 

 

 

 

 

 

 

Overall assessment result: Competent Not yet competent

Assessor name:

Signature:

Date:

Student signature:

Date: