Reducing Scope 2 Carbon Emissions with AHU Fan Upgrades
04 May 2023
The greenhouse gas protocol establishes a set of comprehensive, standardised frameworks to measure and manage greenhouse gas (GHG) emissions from private and public sector operations.
In accordance with the GHG protocol, UK universities must now record their Scope 1 & 2 carbon emissions with a view to achieving net zero status in the future, and, in line with these plans, they were set a challenge to reduce their carbon emissions by 43% between 2005 and 2021. It has been reported however, that up to 59% did not meet these targets. By 2030, this target is a 63% reduction in carbon emissions so there’s still a large way to go.So how can we help universities and other education institutions reduce their overall emissions. Firstly, let’s understand how carbon emissions are categorised.
Emissions are broken down into three scopes:
To create a carbon reduction plan, it is necessary to identify all carbon emissions generated from usual business operations. From here, improvements can be made to reduce emissions from each contributory set.
Scope 1 emissions are direct emissions, such as those generated from the purchase of gas and electricity. For example, natural gas.
Scope 2 emissions are indirect emissions such as the carbon emissions generated from using electricity to power equipment in the buildings.
Scope 3 emissions are indirect from other activities such as distribution, air, and road travel, not usually associated with the building itself.
In January 2023, The Royal Anniversary Trust released a report titled “Accelerating towards Net Zero” in which it estimated the total carbon footprint for the tertiary education sector across all three scopes was 18.1Mt CO2e, with higher education contributing approximately 86% of this.
Scope 1 & 2 Emissions and The Built Environment
Scope 1 and 2 emissions relate predominantly to the building and infrastructure, the daily business activities, and operations of the building. How energy efficient these activities, processes and equipment’s are, has a large impact on the potential to reduce scope 2 carbon emissions. The report mentioned above identified three key action pathways to achieving net zero, with one of these being the Built Environment.
19% of the sectors total emissions are related to the built environment representing scope 1 & 2 fuel and electricity use, as well as scope 3 emissions.
What Scope of Carbon Emissions do Air Handling Units Fall into?
As specialists in fan integration and air handling retrofit, we work on many projects to reduce overall energy efficiency. Energy efficiency, energy consumption and carbon emissions go hand in hand.
Air handling units (AHUs) typically fall under Scope 2 carbon reduction. As touched on earlier, scope 2 emissions refer to the indirect GHG emissions associated with the production of purchased electricity, heat, or steam that a company or organisation consumes. AHUs consume electricity to power fans and motors, which result in indirect carbon emissions associated with the electricity used.
To reduce scope 2 emissions associated with AHUs, we focus on increasing the energy efficiency and reducing carbon output associated with our customers AHUs. This is especially true if we’re replacing large centralised single systems with old and inefficient belt driven fans. In the case of new systems, new multiple fan array air handling units, are designed to ensure fans and motors run closer to their peak efficiencies, thus contributing to a lower energy consumption and carbon emission output. For example, EC plug fans used in our ECFanGrid retrofit projects in 2019, reduced CO2 by 2980t in one year, with over 5987MW energy savings per year. The average payback period following the initial investment was on average between 2-5 years.
Scope 2 Carbon Emission Reduction & BREEAM
Reducing Scope 2 emissions associated with AHUs can be an important part of a universities carbon reduction strategy and can contribute to their overall sustainability goals. Reducing energy use and carbon reduction techniques are well credited within the Energy category of BREEAM assessments where credits are earned through implementing solutions that improve a buildings operational energy use. Our air handling units contribute credits within 5 out of 10 BREEAM categories with scope 2 carbon emission reduction adding value in Ene.01 Reduction of energy use and carbon emissions.
How Does the Carbon Reduction Fund Help Universities?
By reducing their carbon emissions, universities can not only help to mitigate climate change but also reduce their energy costs and demonstrate their commitment to sustainability. The Carbon Reduction Fund is a financial support programme that provides universities with the resources and support they need to implement sustainability projects, such as upgrading buildings to be more energy-efficient, investing in renewable energy sources, and promoting sustainable transportation options.
In addition to the environmental benefits, participating in the Carbon Reduction Fund can also provide UK universities with reputational benefits. By demonstrating their commitment to sustainability, universities can enhance their brand and attract environmentally conscious students, staff, and stakeholders.
Other Press Releases By This Company
- 12/11/2024 - Empowering Technical Buyers to Make Successful Decisions
- 25/10/2024 - Reduce Energy Consumption in Laboratories With EC Fume Fans
- 23/10/2024 - Axair Fans: Revolting for A Reason
- 10/10/2024 - Axair Fans Help Customers to Engineer Their Way out of the Skills Gap
- 02/10/2024 - Putting an End to Complacency in a Frustrated Marketplace
- 03/09/2024 - Reducing Time to Value: A Win For Customers
- 30/05/2024 - A New Approach in an Antiquated Industry
- 11/01/2024 - Advanced Digital Tools to Enhance Precision in Fan Specification for Fume Extraction Systems
- 15/11/2023 - BREEAM Indoor Air Quality with EC Plug Fans for Air Handling Units
- 07/09/2023 - ATEX S50 Polypropylene Fans for Fume Extraction Systems
- 27/04/2023 - Understanding Corrosion Resistant C3, C4, C5 and CX Paint Grades
- 27/04/2023 - Energy Saving EC Forward Curved Fans for Air Curtains
- 27/03/2023 - Mechanical Ventilation with Heat Recovery (MVHR) – Basic & Quality System Differences
- 27/03/2023 - ATEX Fans Crowned Winner of The Net Innovation Award 2023
- 24/03/2023 - ATEX Concepts: What is BS EN 14986:2017?
- 24/03/2023 - Zone Two ATEX Fans Designed to Equipment Category 3G
- 09/02/2023 - Corrosion Resistant Fans for Oxygen Rich Environments
- 25/01/2023 - The Complete School Fume Extraction Fan Kit
- 25/01/2023 - Centrifugal Blower Fans for Combustion Burning of Medical Waste
- 25/01/2023 - Zone One ATEX Fans for Category 2 Gas Environments
- 25/01/2023 - A Comprehensive Plug Fan Range
- 14/11/2022 - EC Fanwall Q&A for Engineers
- 24/10/2022 - The Role of the Industrial Blower Fan in Residual Waste to Energy Incineration
- 24/10/2022 - Corrosion Resistant Stainless Steel Fans – Robust & Hygienic
- 12/09/2022 - Combustible Dust Explosions in Industrial Processes
- 01/09/2022 - Exhaust Fans for Petrochemical Production in the Oil & Gas Industry
- 13/07/2022 - NIMUS Fans Improve Efficiency and Cost Reduction at UK Biomass Gas Site
- 28/06/2022 - Fans for Power Electronics Cooling
- 23/06/2022 - Replacing a Fan in a Fume Cupboard – Choosing the Right Plastic Fan
- 06/06/2022 - IIC Hydrogen Exhaust & Effective Battery Room Ventilation
- 01/06/2022 - Combustible Dust & Textile Industrial Fans
- 24/05/2022 - Ecofit Forward Curved Centrifugal Fans with AC or EC motors
- 09/05/2022 - New Launch: I-Series Backward Curved EC Plug Fans
- 05/05/2022 - Corrosive Fume Extraction Case Studies
- 21/04/2022 - Industrial Fans for Maximum Combustion in Waste Wood Renewable Energy Systems.
- 14/04/2022 - Transformer Cooling Fans
- 28/03/2022 - Air Measurement Tools for SprayBooth & Refinishing Applications
- 11/03/2022 - Industrial Fan Impellers & Fans for Spray Booth Ventilation
- 09/03/2022 - Axair Support the Development of Mobile Incineration Units
- 03/03/2022 - The advantages of multiple fans in parallel vs. a single fan in ventilation systems
- 03/12/2021 - Balanced Airflow in Heat Recovery Systems with Constant Volume Fans
- 11/08/2021 - High Performance Cooling for High Power Control Panels
- 19/07/2021 - A Fresh New Website & A Fresh New Team – How Axair Fans Has Changed
- 13/07/2021 - The Evolution of the Plug Fan
- 07/06/2021 - Extraction Fans for Indoor Swimming Pools & Chlorine Ventilation
- 18/05/2021 - Axair Partner with Buy Social Enterprise MSS-CKD
- 15/07/2020 - How to effectively protect your office spaces?
- 17/01/2020 - 5 Common Mistakes in Enclosure Cooling
- 03/01/2020 - Enclosure Cooling: Things to know about Airflow
- 14/11/2019 - Efficient Cooling Power Delivered to Rolling Stock Yard
- 15/10/2019 - The Importance of Chemical Storage Ventilation
- 24/09/2019 - 4 Ways to Cool a Cabinet
- 09/08/2019 - New Heights in Heat-Resistance: CLIBOS High Temperature Fan
- 04/07/2019 - Commercial Kitchen Extractor & Supply Air Fans
- 28/06/2019 - 4 Myths about Electrical Enclosures
- 03/05/2019 - Flexibility in Commercial Ventilation
- 11/04/2019 - Process Cooling in Factories
- 25/07/2017 - Alerting Live Enclosure Voltages with The Flash Signal Device
- 05/06/2017 - The Axair Group Launch The First ATEX IP68 Frame Axial Fan
- 24/03/2017 - Quiet fans score in laboratory environment
- 16/03/2017 - Understanding Fan Laws
- 17/02/2017 - Axair Donate to The Little Princess Trust
- 07/02/2017 - Selecting Industrial Fans For Biomass Applications
- 11/11/2016 - All About Smoke Control
- 25/10/2016 - New Product Release: Digital Electronic Speed Controller
- 06/10/2016 - Focus On Smoke, Pressurisation & Evacuation
- 09/09/2016 - Axair Fans Increase Company Portfolio
- 24/08/2016 - Getting To Know Axair Fans
- 22/07/2016 - Warehouse Ventilation | Centrifugal Roof Fans
- 02/06/2016 - Axair Fuel Fans For Efficient, Clean & Safe Biofuel Drying
- 18/04/2016 - Axair Fans UK Limited | Entering the World Of E-Commerce
- 12/04/2016 - Introduction to Mechanical Smoke Control
- 30/03/2016 - An Inland Of Revenue For AC Fans….
- 08/03/2016 - Axair Become Even More Responsive with A New Mobile Friendly Website..
- 14/01/2016 - “E” is for Energy Efficient - introducing the new E-Wheel
- 09/04/2013 - New ErP compliant Rosenberg fan
- 19/02/2013 - Rosenberg EC in-line duct fans from Axair
- 29/01/2013 - Inch blowers from Axair Fans
- 03/10/2012 - Axair offers the key to flexibility
- 06/08/2012 - Axair present new colour for enclosure cooling
- 24/02/2011 - Axairs' fans resist hazardous fumes
- 14/07/2010 - Axairs' high efficiency EC fans for installers
- 09/02/2010 - Kitchen extract fan now easy to clean
