Embodied carbon, biogenic carbon, reduction strategies and ...
CIBSE TM65: Embodied carbon of building services equipment
Transcript of CIBSE TM65: Embodied carbon of building services equipment
Yara Machnouk
Environmental Designer
CIBSE TM65: Embodied carbon of building services equipment
ASBP Conference
10/06/2021
Louise Hamot
Global Lead of Life Cycle Research
ASBP Conference
Louise HamotGlobal Lead of Lifecycle Research, Elementa Consulting
Yara MachnoukEnvironmental Engineer, Elementa Consulting
Presenters
@elementa_uk
@deepgreeneng
Elementa Consulting – an overview22
Global Offices
700+ Global
Employees
350+ Global
Awards
10+ years
Integral Group
2UK Offices
76UK Employees
MultiUK Award Wins
30Years Trusted Experience
Agenda
Presentation – 40 min• Embodied carbon of building services: why it matters• Basic embodied carbon reduction measures for MEP• MEP Embodied carbon work => CIBSE TM65 context• CIBSE TM65 summary• CIBSE TM65 worked example• Next steps
CIBSE TM65
Embodied carbon & building services
equipment
Need to reduce carbon emissions
Embodied carbon is becoming more relevant
Potential breakdown between embodied and operational carbon for new buildings over time
Embodied carbon of MEP
?
Embodied carbon of MEP – big quantities
?2000 sqm 25 Tonnes
Embodied carbon of MEP – high impact materials
Embodied carbon of MEP – high replacement rates
Operational carbon
Ca
rbo
n e
mis
sio
ns
(kg
CO
2e
)
kgCO2e
Need of Whole life carbon approach
Ca
rbo
n e
mis
sio
ns
(kg
CO
2e
)
kgCO2e
Embodied carbon reduction in MEP
design - basics
LESS IS MORE
‘Design out’ MEPReduce overall weight of MEP equipment within a building
Specify equipment with lower weight
THINK CIRCULAR
Specify products and components that can be demounted and reused
products that can be disassembled, and materials recycledEnsure easy access for inspection, maintenance and replacement.
MITIGATE REFRIGERANT LEAKAGE
Specify low GWP refrigerantsReduce overall refrigerant charge
Ensure low leakage ratesEnsure refrigerant is 100% recovered
13.1kgCO2e/kg
3.8kgCO2e/kg
3.23kgCO2e/kg
2.97kgCO2e/kg
4.4kgCO2e/kg
1.86kgCO2e/kg
3.31kgCO2e/kg
Brass
4.8kgCO2e/kg
Zinc
4.18kgCO2e/kg
LOW EMBODIED CARBON MATERIALS
TM65 – MEP embodied carbon reductions
Go to Section 2
MEP & Embodied Carbon work
Our work
Time
CIBSE T. Symposium
2019 2020 2021
Our work
Time
Office WLC case study
CIBSE T. Symposium
2019 2020 2021 NOW
Our work
Time
Office WLC case study
LETI Embodied carbon PrimerCIBSE T. Symposium
2019 2020 2021
Our work
Time
Office WLC case study
LETI Embodied carbon Primer
Refrigerant Best Practice Guide
CIBSE T. Symposium
2019 2020 NOW
Our work
Time
Office WLC case study
LETI Embodied carbon Primer
Refrigerant Best Practice Guide
CIBSE T. Symposium
2019 2020 2021
CANBIM Award
NOW
Our work
CIBSE TM65
Time
Office WLC case study
LETI Embodied carbon Primer
Refrigerant Best Practice Guide
CIBSE T. Symposium
2019 2020 2021
CANBIM Award
NOW
Environmental Product Declarations
An EPD provides a standard way to disclose environmental impacts about a product throughout its lifecycle, using a consistent methodology
EPDs – where to find them
Go to Section 3 & Appendix A
Context - Need for consistency
CIBSE TM65
Context – knowledge gap
?kgCO2e?
CIBSE TM65 – Aim & scope
CIBSE TM65 - process summary
CIBSE TM65 - summary
CIBSE TM65 – differences with an EPD
CIBSE TM65 - process
Help CIBSE build a product database
CIBSE TM65 – Manufacturer form
CIBSE TM65 – Basic calculation method
CIBSE TM65 – Mid level calculation method
CIBSE TM65 – The assumptions
Go to page 17-20 of TM65 for more info
Go to page 46 of TM65 for more info
CIBSE TM65 – Reporting results
0 100 200 300 400 500 600 700 800 900 1,000
Basic
kg CO2e
A1: Material extraction
B3: Repair
Scale up factor
Buffer factor
CIBSE TM65 – example - Boiler
Go to chapter 5 page 23 to see the worked examples
0 100 200 300 400 500 600 700 800 900 1000
Mid Level
kg CO2e
A1: Material extraction
A2: Transport
A3: Manufacturing
A4: Transport to site
B3: Repair
C2: Transport
C3: Waste processing
C4: Disposal
Buffer factor
Go to chapter 5 page 23 to see the worked examples
Basic calculation method
Mid Level calculation method
TM65- The Appendix
TM65- The Appendix
TM65- The Appendix
CIBSE TM65worked example
CIBSE TM65 – Worked example
92%
Is it all the information we need?Which calculation method can we use?
CIBSE TM65 – Worked example
We can do the basic calculation method
CIBSE TM65 – Basic calculation method
CIBSE TM65 – Worked example
CIBSE TM65 – Worked example
Is Step 1 complete?
CIBSE TM65 – Worked example
We need to add the remaining 5%
CIBSE TM65 – Worked example
CIBSE TM65 – Worked example
Which complexity factor to use?
CIBSE TM65 – Worked example
CIBSE TM65 – Worked example
CIBSE TM65 – Worked example
CIBSE TM65 – Worked example
CIBSE TM65 – Advanced users
Go to section 6 page 30 of TM65 for more info
CIBSE TM65 next steps
CIBSE TM65 – Aims
CIBSE TM65 – Tool
How do all the document work togethers
Section A: Info for basic calc
Section B: Info for mid-level calc
Section C:Additional Information
Section D:Data disclosure
Calculator tool
Product information
Calculation results
Disclosure
Manufacture form
Reporting form
Calculator tool
CISBE TM 65
Consultant/ researcher using the tool
Step 1: Send the manufacturer the ‘manufacturer form’
Step 2: Receive the ‘manufacturer form’ from the manufacturer
Step 3: Use the ‘calculator tool’ to carry out the calculations
Step 4: Use the results in systems analysis
Step 5: Send the manufacturer form and the completed excel tool (which in effect becomes the reporting form) to CIBSE – to help develop knowledge on embodied and the development of an embodied carbon database.
Manufacturerform
Section A:
Section B:
Section C:
Section D:
Calculator tool
Manufacturer using the tool
Step 1: Use the ‘calculator tool’ to carry out the calculations (including filling out the disclosure section in the output tab)
Step 2: Print the inputs/ output tabs to PDF - send this to clients/ consultants/ contractors to show the embodied carbon of the product
To help CIBSE develop knowledge on embodied and the development of an embodied carbon database.
Step 3: complete the manufacturer form ( section C and D) and the completed excel tool (which in effect becomes the reporting form) to CIBSE
Manufacturerform
Section A:
Section B:
Section C:
Section D:
Calculator tool
CIBSE TM65 – Research Insight paper
RESEARCH INSIGHT PAPERON EMBODIED CARBON OF
HEATING DESIGN IN RESIDENTIAL SCHEMES (3 scales)
CIBSE TM65 – Training
IntroductionHow to use the CIBSE TM65 excel based tool
Worked examplesWhen to question data from manufacturersHow to find embodied carbon coefficients for materials not listed in TM65Range of expected results
CIBSE TM65 for Advanced usersFunctional units, how to categories products, generic data points, sharing data, embodied carbon at system level
Next steps for CIBSE TM 65Development of the method, how data submitted to CIBSE will be used, Opportunities for collaboration
Register your interest by emailing [email protected]
Thank you
Questions?