MTU Courses - INTR9023 - Sustainability and BIM for AEC

INTR9023 - Sustainability and BIM for AEC

Module Details

Module Code:	INTR9023
Title:	Sustainability and BIM for AEC
Long Title:	Sustainability and BIM for AEC
NFQ Level:	Expert
Valid From:	Semester 2 - 2020/21 ( January 2021 )

Duration:	1 Semester

Credits:	10

Field of Study:	5213 - Interdisciplinary Engineering

Module Delivered in:	1 programme(s)

Module Description:	This module introduces sustainability principles, design strategies and evaluation techniques for the AEC sector. It will address existing standards and systems for the evaluation of sustainability. It will examine the concepts of smart infrastructure, sensing and metering. BIM systems and processes will be leveraged to enhance the sustainable design, construction and operation of assets.

Learning Outcomes
On successful completion of this module the learner will be able to:
#	Learning Outcome Description
LO1	Evaluate the sustainability of AEC products or outcomes.
LO2	Critically assess and discuss energy related concepts in infrastructure based assets.
LO3	Evaluate, optimize and validate facility performance using BIM-based simulation software as an individual and as a team.
LO4	Assess and appraise data outputs for sustainability and energy performance systems using BIM based methodologies.
LO5	Analyse, evaluate and discuss concepts related to facility, asset and infrastructure as an approach to achieving sustainability.

Dependencies
Module Recommendations This is prior learning (or a practical skill) that is strongly recommended before enrolment in this module. You may enrol in this module if you have not acquired the recommended learning but you will have considerable difficulty in passing (i.e. achieving the learning outcomes of) the module. While the prior learning is expressed as named MTU module(s) it also allows for learning (in another module or modules) which is equivalent to the learning specified in the named module(s).

Incompatible Modules These are modules which have learning outcomes that are too similar to the learning outcomes of this module. You may not earn additional credit for the same learning and therefore you may not enrol in this module if you have successfully completed any modules in the incompatible list.
No incompatible modules listed
Co-requisite Modules
No Co-requisite modules listed
Requirements This is prior learning (or a practical skill) that is mandatory before enrolment in this module is allowed. You may not enrol on this module if you have not acquired the learning specified in this section.
No requirements listed

Indicative Content
Sustainable Design Techniques Design and sustainability, design tools and strategies (such as strategic environmental assessment, environmental risk assessment, product life cycle assessment, management systems, design for environment, cumulative energy demand, carbon footprinting, resource efficiency, cleaner production, etc.). Application to physical networks (e.g. road network, wastewater treatment); materials (e.g. renewable materials); manufacturing processes (e.g. polymers, waste minimisation); products (e.g. electrical equipment, wind turbines); energy (e.g. usage, source and distribution); and product-service systems (e.g. transportation).
Smart Cities, Infrastructure and Buildings. Focus on how smart can aid sustainability for cities, infrastructure, buildings, technologies and control systems (sensing and actuation).
Sustainability Certification Standards and existing certification systems for evaluating sustainability of infrastructure i.e. BER,LEED,BREEAM, CEEQUAL etc.
Energy, sustainability and BIM NZEB and PEB Concepts: Near zero energy facilities and positive energy facility concepts and approaches explored. Investigate and apply methodologies where BIM and generated data aid in the optimization of asset performance, eg. elements of BREEAM, LEED, NZEB etc.

Assessment Breakdown	%
Module Content & Assessment
Coursework	100.00%

Assessments

Coursework

Assessment Type	Presentation	% of Total Mark	10
Timing	Week 5	Learning Outcomes	1,2,5
Assessment Description Critique, evaluate and present published case studies that focus on sustainability and energy aspects in engineering. Learner will focus on technologies in achieving smart cities, buildings and infrastructures towards higher energy performance and sustainability.

Assessment Type	Open-book Examination	% of Total Mark	40
Timing	Week 9	Learning Outcomes	1,2,4,5
Assessment Description Open book, in class assessment

Assessment Type	Project	% of Total Mark	50
Timing	Week 13	Learning Outcomes	1,3,4
Assessment Description Students working individually and as a team are to apply processes to analyze, evaluate and optimize a BIM based asset to enhance its sustainability individually and as a team.

No End of Module Formal Examination

Reassessment Requirement
Coursework Only This module is reassessed solely on the basis of re-submitted coursework. There is no repeat written examination.

The University reserves the right to alter the nature and timings of assessment

Module Workload

Workload: Full Time
Workload Type	Contact Type	Workload Description	Frequency	Average Weekly Learner Workload	Hours
Lecture	Contact	Delivery of module content.	Every Week	2.00	2
Lab	Contact	Computer Laboratory	Every Second Week	1.00	2
Lecturer-Supervised Learning (Contact)	Contact	Collaborative group activity	Every Second Week	1.00	2
Independent Learning	Non Contact	Revision of lecture material; Self directed learning; Completion of assignments.	Every Week	10.00	10
Total Hours					16.00
Total Weekly Learner Workload					14.00
Total Weekly Contact Hours					4.00

Workload: Part Time
Workload Type	Contact Type	Workload Description	Frequency	Average Weekly Learner Workload	Hours
Lecture	Contact	Delivery of module content.	Every Week	2.00	2
Lab	Contact	Computer Laboratory	Every Second Week	1.00	2
Lecturer-Supervised Learning (Contact)	Contact	Collaborative group activites	Every Second Week	1.00	2
Independent Learning	Non Contact	Revision of lecture material; Self directed learning; Completion of assignments.	Every Week	10.00	10
Total Hours					16.00
Total Weekly Learner Workload					14.00
Total Weekly Contact Hours					4.00

Recommended Book Resources
Module Resources
Dejan Mumovic, Mat Santamouris,. (2018), A Handbook of Sustainable Building Design and Engineering, 2nd. Taylor & Francis, [ISBN: 1138215473]. Miles Keeping, David Shiers. (2017), Sustainable Building Design: Principles and Practice, Wiley-Blackwell, [ISBN: 97804706]. Shady Attia. (2018), Net Zero Energy Buildings (NZEB) : Concepts, Frameworks and Roadmap for Project Analysis and Implementation, BH, [ISBN: 012812461X]. E. Rynska, U. Kozminska, K. Zinowiec-Cieplik , J. Rucinska, B. Szybinska-Matusiak. (2018), Design Solutions for nZEB Retrofit Buildings, SCOPUS, [ISBN: 1522541055]. Mohamed Shehata, Fernanda Rodrigues. (2019), Project Management and BIM for Sustainable Modern Cities, Springer, [ISBN: 3030019047].
Recommended Article/Paper Resources
International Organization for Standardization. (2018), Organization and digitization of information about buildings and civil engineering works, including building information modelling (BIM) — Information management using building information modelling — Part 1,2,3,5.
Other Resources
Website, British Research Establishment (BRE). BREEAM, London, https://www.breeam.com/ Website, US Green Building Building Council. LEED Website, https://www.usgbc.org/ Website, CCaLC project 2011, CCaLC Carbon Footprinting Tool: Carbon Calculations over the Life Cycle of Industrial Activities, University of Manchester, http://www.ccalc.org.uk/

Programme Code	Programme	Semester	Delivery
Module Delivered in
CR_CBIMD_9	Master of Science in Building Information Modelling and Digital AEC	2	Elective