ENE3010 | 2021%2F2 | University of Exeter

MODULE TITLE	Sustainable Architecture	CREDIT VALUE	15
MODULE CODE	ENE3010	MODULE CONVENER	Prof Adam Feldman (Coordinator)

DURATION: TERM	1	2	3
DURATION: WEEKS		11

Number of Students Taking Module (anticipated)	30

DESCRIPTION - summary of the module content

A module to explore sustainability in the built environment. How can land, building materials, resources and energy be employed to a community’s advantage but with low levels of long term, irreversible and environmental impact? The module looks for design ingenuity, sustainable building practices, lowering of energy and resource demand, but without necessarily any fall in building quality or enjoyment! Building regulations and safety must still be met ….. and how can we measure the sustainability and performance of a building?

Many of the subjects modules in years 1, 2 and 3 of the Renewable Energy undergraduate degree course are considered Co-requisite and usefully beneficial to this module (see towards the end of this document). Similarly module ENEM101 within the MSc postgraduate course is considered co-requisite.

Co-requisite module note: Many of the Renewable Energy year-1 to 3 undergrad, and term-1 MSc postgrad, modules are valuable co-requisite modules, but none are absolutely essential to allow a good student to successfully study the ENE3010 Sustainable Architecture module.

AIMS - intentions of the module

This module aims to develop architectural design capability in candidates, building on acquired knowledge of Energy Management principles and practice covered in Year 2 (undergraduate programmes) and Term-1 for MSc postgraduate.

It aims to develop knowledge and understanding of new material on architectural design principles and processes (at an introductory level), sustainable construction materials and sustainable construction practice and to develop capability in the design of buildings integrated renewable energy systems.

INTENDED LEARNING OUTCOMES (ILOs) (see assessment section below for how ILOs will be assessed)

On successfully completing the module, you will be able to …

Module Specific Skills and Knowledge:

1 Appreciate society’s urgent need for a more sustainable built environment.

2 Debate what constitutes sustainable building design.

3 Analyse the components and systems that come-together to form buildings.

4 Understand some of the historical, alongside newer materials and systems available for building.

5 Apply basic elements of building performance physics, with associated calculation.

6 Evaluate and propose good functional, ergonomic and efficient building design.

7 Apply a working knowledge of Building Control (UK) legislation.

8 Assess elements of building performance – including elements of SBEM and BREEAM

9 Apply the concepts of Passivhaus design – to achieve energy efficiency and building comfort – in addition to all other components of sustainable design.

10 Devise solutions to achieve a typical sustainable building-brief, compare to alternative choices and defend the systems selected.

Discipline Specific Skills and Knowledge:

11 Implement design and engineering ideas to form a justified and rigorous solution.

12 Assess practical limitations of such solutions.

13 Compare and contrast competing design choices and technologies.

14 Link technical and research findings to actual applied practice.

Personal and Key Transferable/ Employment Skills and Knowledge:

15 Learn independently and cooperatively.

16 Communicate ideas effectively by written and oral means.

17 Review and appraise academic and research literature.

18 Analyse data.

19 Interact and work effectively in a group and as part of a design team.

SYLLABUS PLAN - summary of the structure and academic content of the module

An introduction to the module. Aims, outcomes, assignment projects.
Exploration of sustainability. Definitions and options.
Employing the environment to optimal efficiency.
A brief review of sustainable, vernacular building design.
The choice of construction materials – high or low thermal mass. Building response. Insulation, air tightness and quality. Masonry, stone, timber, cob, rammed-earth, straw and many others!
The Passivhaus concept as a means to achieve energy efficiency and thermal comfort within a building.
The whole package of sustainable design; balancing what can be achieved to available resource.
The concept of building control and building regulation as a means to continually improve building quality and performance.
- The many components that form a building envelope.
The Systems & Services that are installed and operate within the envelope – a brief introduction to CIBSE – the professional body that a fair number of RE students select and join.
Building physics, building performance a number of the important parameters.
Measuring and assessing building performance – SBEM, BREEAM, Passivhaus values – quantitative and qualitative.
Incorporation of primarily energy-saving and sustainable design, and then building integrated renewable energy.
If COVID-19 / lockdown allows – a trip to NSBRC – The National Self Build and Renovation Centre, Swindon.
If COVID-19 / lockdown allows – a visit to Jubilee Wharf – ZED design – Penryn.
If COVID-19 / lockdown allows – a tour of various buildings on Penryn campus, and to Frame UK timber frame manufacturers, Redruth.
Project Presentations – a half day event (dependent on COVID-19 lockdown situation) in which each design team will present their completed project and ideas to the whole group.

LEARNING AND TEACHING

LEARNING ACTIVITIES AND TEACHING METHODS (given in hours of study time)

Scheduled Learning & Teaching Activities	37	Guided Independent Study	113	Placement / Study Abroad

DETAILS OF LEARNING ACTIVITIES AND TEACHING METHODS

Category	Hours of study time	Description
Scheduled learning and teaching activities	20	Lecture videos and pre-prepared materials
Scheduled learning and teaching activities	20	Seminars and discussions
Scheduled learning and teaching activities	12	Visits – dependent upon COVID-19 situation
Guided independent study	98	Guided reading, personal study, and considerably teamwork to achieve the architectural sustainable design set within the assignment brief

ASSESSMENT

FORMATIVE ASSESSMENT - for feedback and development purposes; does not count towards module grade

Form of Assessment	ILOs Assessed	Feedback Method
Tutoring both individually and in Team throughout the 11 week design process	All 1 to 19	Oral feedback appraisal
Set pieces of formative research- some of which to be presented and discussed with peers in-class	All 1 to 19	Oral feedback appraisal

SUMMATIVE ASSESSMENT (% of credit)

Coursework	100	Written Exams	0	Practical Exams

DETAILS OF SUMMATIVE ASSESSMENT

Form of Assessment	% of Credit	Size of Assessment (e.g. duration/length)	ILOs Assessed	Feedback Method
Group: two x A1 project design posters	30	1,500 words equivalent	All 1 to 19	Written appraisal
Group: Oral and/or PowerPoint presentation of the design	20	1,000 word equivalent	All 1 to 19	Written appraisal
Individual: Written report	50	1,500 words + diagrams	All 1 to 19	Written appraisal

DETAILS OF RE-ASSESSMENT (where required by referral or deferral)

Original Form of Assessment	Form of Re-assessment	ILOs Re-assessed	Time Scale for Re-assessment
The group-work posters, presentation and individual report – as detailed above.	Referred and deferred assignments will mirror the original modes of assessment – which may need to encompass just one component, two components, or all three components of the assessment, depending upon the candidate’s situation. The referred/deferred assignment work will take the form of a single piece of written report-work, configured to reflect elements of poster-design work, project-presentation, and /or independent project appraisal with illustrations – to equivalently mirror assignment elements still to be assessed and passed. The assignment set builds-on and appraises in detail either the candidate’s existing own-Group building-design, or if a personal group design is not available, a selected parallel group-design will be employed, appraised and developed instead.	All 1 to 19	August Ref/Def period

RE-ASSESSMENT NOTES

As in section above; If a student is referred or deferred, the failed / non-completed component(s) will be re-assessed at the same weighting as the original assessment.

RESOURCES

INDICATIVE LEARNING RESOURCES - The following list is offered as an indication of the type & level of
information that you are expected to consult. Further guidance will be provided by the Module Convener

Exeter Learning Environment (ELE) – module ENE3010 Sustainable Architecture ELE web-pages

Lecture materials – notes and pre-recorded mini-lectures.

Links to chosen texts, journal articles, web pages, expert institutions, media programmes and videos to support and extensively explore the subject material.

Details of the course assignments, design-brief, tasks and assessments.

Reading list for this module:

Type	Author	Title	Edition	Publisher	Year	ISBN
Set	Christina Hopfe, Robert McLeod (editors)	The Passivhaus designer’s manual		Routledge	2015	978-0-415-52269-4

CREDIT VALUE	15	ECTS VALUE	7.5

PRE-REQUISITE MODULES	None
CO-REQUISITE MODULES	None

NQF LEVEL (FHEQ)	6	AVAILABLE AS DISTANCE LEARNING	No
ORIGIN DATE	Thursday 6th July 2017	LAST REVISION DATE	Thursday 2nd September 2021

KEY WORDS SEARCH	Architecture; Building Design; Sustainable.

Sustainable Architecture - 2021 entry