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Accreditation of Engineering Degree Programmes

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Title: Accreditation of Engineering Degree Programmes

1
Accreditation of Engineering Degree
Programmescurrent requirements and future
challenges

Rob Best
Pro Dean - Dept Engineering Science Built
Environment, LSBU
ECUK Conference
IMarEST, 14th October

2
A Professional Engineering Institution Viewpoint

CURRENT REQUIREMENTS
Role of IChemE
Need for Standards of academic formation
Need for Rigour
The Learning Outcome Assessment challenge
Benefits to the Profession
Imparting value our philosophy

3
Accreditation - the Role of IChemE

To promote, foster and develop the general
advancement
of the science of chemical engineering in all
its branches ...
To uphold the status of the Institution by
requiring standards
of knowledge and experience approved by IChemE

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

4
IChemE Accreditation Award

Master Level
Recognising degrees of the highest international
standards that provide
advanced chemical engineering knowledge and
skills
Bachelor Level
Recognising mainstream Bachelor degrees that
provide solid academic
foundation in chemical engineering knowledge and
skills

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

5

Chemical Engineering Knowledge and
Understanding
Critical Components
DESIGN
BREADTH
DEPTH
CORE

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

6
Chemical Engineering Knowledge and
Understanding
Critical Components

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

Benchmark Thresholds

Accreditation Threshold Level (Learning Outcome)
Second Cycle
First Cycle
Foundation
Breadth
Foundation
Bachelors
Depth
Master
8
(No Transcript)
9
Learning Outcomes Required from a Chemical
Engineering Degree Programme

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

10
Accreditation Levels Minimum Credit Allocation
Guidance Credit Basis European Credit Transfer
System (ECTS)

Master Level Bachelor Level Further Learning to Master Level
Underpinning Mathematics and Science 20 20
Core Chemical Engineering 85 85
Engineering Practice 10 10
Design Practice 10 10
Embedded Learning (SHE, Sustainability) Sufficient, clear demonstration Sufficient, clear demonstration Sufficient, clear demonstration
Embedded Learning (Transferable Skills) Sufficient, clear demonstration Sufficient, clear demonstration Sufficient, clear demonstration
Advanced Chemical Engineering - Depth 30 30
Advanced Chemical Engineering - Breadth 15 15
Advanced Chemical Engineering Practice 10 10
Advanced Chemical Engineering Design Practice 5 5
Total IChemE Minimum Specified Content 185 125 60

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

11
Learning Outcomes Required from a Chemical
Engineering Degree Programme

Embedded Learning (Sustainability SHE
Ethics)
Knowledge and ability to handle a variety of
societal, ethical
and commercial aspects of chemical engineering
- include health and process safety
sustainable
development commercial planning
process plant economics ethics standards
Material is built upon and reinforced throughout
the degree

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

12
Rigour - General Considerations.

Are the entry qualifications profiles of students
satisfactory?
Are learning outcomes clearly defined and
appropriate?
Is programme structure and content appropriate ?
Are the resources in place to deliver the
learning outcomes?
Are learning outcomes achieved to appropriate
standards?
Are there significant changes happening that
impact programme delivery?

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

13
Learning Outcomes

Specific information regarding Learning Outcomes
in
Underpinning Science Maths
Core Chemical Engineering
Advanced Chemical Engineering
Engineering Practice
Design Practice
etc
are found in IChemEs published Accreditation
Guidance
www.icheme.org/accreditation

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

14
The Challenges of Learning Outcome Assessment

Blooms Taxonomy proposes that Knowing is
composed of 6 successive hierarchical levels
How do we as accreditors recognise a Master level
or Bachelor set of outcomes?
Valuable guidance on assessing outcomes in
engineering is available from the Engineering
Subject Centre

Evaluation Ability to judge value of material for a given purpose
Synthesis Ability to put parts together
Analysis Ability to breakdown information into its components
Application Ability to use learned material in new situations
Comprehension Ability to understand and interpret learned information
Knowledge Ability to recall or remember facts without necessarily understanding them

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

15
Benefits to the Profession

Recognition
Accreditation process adds value to everyone - to
students, graduates, to host departments, to
faculty, and to international profession
including employers
International benchmarking
Our Testimony
gt 160 Chemical Engineering degrees at
gt 40 Chemical engineering education
providers
in 14 Countries

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

16
Imparting Value Our Philosophy

To assure discipline specific standards of
academic formation are attained
To enrich review of the discipline against high
and consistent standards
To share and disseminate educational best
practice
To develop a network of educational professionals

CURRENT REQUIREMENTS
Role of IChemE
Standards of academic formation
Rigour
Learning Outcome assessment
Benefits to the Profession
Imparting value our philosophy

17
Accreditation of Engineering Degree
Programmescurrent requirements and future
challenges

Neil Atkinson
Director - Qualifications and International
Development, IChemE
ECUK Conference
IMarEST, 14th October

18
A Professional Engineering Institution Viewpoint

FUTURE CHALLENGES
Massification of education
Mobility
PBL Student Centred Learning
Qualifications Proliferation Life Long Learning
Inconsistent definitions of Academic Formation
Supporting Employers with the talent pipeline
Costs

19
Massification of Education

Impacts of changes to the range, character and
content of
secondary education provision eg introduction
of Diplomas
Impact of the need for increased provision of
foundation
learning (numeracy scientific)
Clarity re when higher level engineering
education begins
(entry standards start point)
Impact of increasingly delayed choice within
degrees re
selection of major engineering discipline
The disappearance of disciplines within
Schools!
The disappearance of industrial practitioners!

FUTURE CHALLENGES
Massification of education
Mobility
PBL Student Centred Learning
Qualifications Proliferation
Life Long Learning
Inconsistent definitions-Academic Formation
Supporting Employers-Talent Pipeline
Costs

20
Mobility

How should accreditors deal with ECTS credits
and
mobility?
how do we ensure that the sum of the parts
always meet the demands required of the whole
for exemplifying academic formation
standards?
and Conversion degrees?
How should accreditors deal with 1st cycle
degrees or
their worldwide equivalents that dont
contain sufficient
design? eg Melbourne model Bachelors?
The issue of the (arguably discordant)
Washington Accord
until such time as graduate standards
harmonise on
Master level academic formation

FUTURE CHALLENGES
Massification of education
Mobility
PBL Student Centred Learning
Qualifications Proliferation
Life Long Learning
Inconsistent definitions-Academic Formation
Supporting Employers-Talent Pipeline
Costs

21
Problem Based LearningStudent Centred Learning
Traditional Student Centred
Tutor fountain of knowledge Passive role Tutor led Taught to syllabus Learning fixed to classroom Didactic Tutor as facilitator Active role Partnership Agreed syllabus Not restricted to time, pace or place Interactive, using range of methods

SCL is driving institutions to develop 21st C
approaches to
learning, a strategy for broadening
participation and has
clear tangible benefits....
But how should educators and accreditors
respond?

FUTURE CHALLENGES
Massification of education
Mobility
PBL Student Centred Learning
Qualifications Proliferation
Life Long Learning
Inconsistent definitions-Academic Formation
Supporting Employers-Talent Pipeline
Costs

22
Qualifications Proliferation Life Long
Learning

LLL has become a necessity for our economies
(the knowledge explosion)
A rapidly expanding provision of diverse routes
to
professional qualification offers
opportunities for
accreditors to further aid employers and
their
engineer/technician employees
This routes create new demands on accreditors
and
requires development of new skills eg
unpicking the
increasingly blended academic formation and
vocational
training in relation to work based programmes
leading to
professional status
What is the best role of accreditors for such
programmes?

FUTURE CHALLENGES
Massification of education
Mobility
PBL Student Centred Learning
Qualifications Proliferation
Life Long Learning
Inconsistent definitions-Academic Formation
Supporting Employers-Talent Pipeline
Costs

23
Inconsistent Definitions of Academic Formation
for Professional Engineers

The international dimension and the issue of
the
(arguably discordant) Washington Accord.....
until such time as graduate standards
harmonise on
Master level academic formation
How should accreditors/PEIs best deal with
this?
......especially when employers who rightly
demand
consistent standards are often multinational

FUTURE CHALLENGES
Massification of education
Mobility
PBL Student Centred Learning
Qualifications Proliferation
Life Long Learning
Inconsistent definitions-Academic Formation
Supporting Employers-Talent Pipeline
Costs

24
Supporting Employers -
Qualified Talent Pipeline

Securing and retaining enough engineers of the
right quality is a top issue facing companies.
Our key role is to ensure the talent pipeline is
working in the short, medium and long term
Accreditation activities will continue to be
necessary to
help employers make sense of the qualifications
maze
Distance learning
Vocational learning
CPD
Position qualifications/combinations of
qualifications
Approved company training (eg WBFL to Master
level) etc