Enterprise carbon accounting
Encyclopedia
Enterprise Carbon Accounting (ECA)/ Corporate Carbon Footprint aims to be a rapid and cost effective process for businesses to collect, summarise, and report enterprise and supply chain GHG inventories. ECA leverages financial accounting principles, whilst utilising a hybrid of input-output LCA (Life Cycle Analysis)and process methodologies as appropriate. The evolution to ECA is necessary to address the urgent need for a more comprehensive and scalable approach to carbon accounting. While an emerging area, a number of new companies offer ECA solutions . ECA is a critical part of broader Enterprise Sustainability Accounting.
Comprehensive: Incorporates Scope 1,2 and 3 emissions
Periodic: Enables updates at regular intervals and comparisons across reporting periods
Auditable: Traces transactions and enables independent reviews for compliance
Flexible: Incorporates data from multiple approaches to life cycle analysis
Standards-Based: Accommodates existing generally accepted standards and emerging standards
Scalable: Accommodates growing volume and complexity of business operations
Efficient: Delivers data in the timeframe required for decision making
Enterprises that realize reduced emissions and energy consumption utilize systems with the following capabilities:
* Real-time historical energy data that is easily accessible
* Role-based visibility into plant emissions data
* Provides executives with real-time visibility into emissions data
* Ability to benchmark emissions levels with goals and industry standards
Cumberland, J. H. and B. Stram. 1976. Empirical applications of input-output models to environmental protection. In Advances in input-output analysis: Proceedings of the sixth international conference on input-output techniques, Vienna, April
22–26, 1974, edited by K. R. Polenske and J. V. Skolka, pp. 365–382. Cambridge: Ballinger.
Hendrickson, C., Horvath, A., Joshi, S. and Lave, L. 1998. "Economic Input-Output Models for Environmental Life Cycle Assessment," Environmental Science and Technology, April: 184A-191A.
Heijungs, R. and S. Suh, The Computational Structure of Life Cycle Assessment, Springer, 2002.
IPCC (Intergovernmental Panel on Climate Change). 1995. IPCC guidelines for national greenhouse gas inventories, vol. 1–3. UNEP, OECD and IPCC.
Lave, L. B., E. Cobas-Flores, C. T. Hendrickson, and F. C. McMichael. 1995. Using input-output analysis to estimate economy-wide discharges. Environmental Science and Technology 29(9): 420A–426A.
Suh, S. “Functions, commodities and environmental impacts in an ecological–economic model” Ecological Economics, 48(4), April 2004, pp. 451–467.
The Greenhouse Gas Protocol Initiative
UN (United Nations). 1993. Integrated environmental and economic accounting. New York: United Nations Department of Economic and Social Information and Policy Analysis, Statistics Division.
Hufschlag, K.: Global Carbon Accounting at DP DHL (Weltweites Carbon Accounting bei Deutsche Post DHL), uwf - Umweltwirtschaftsforum 18, H.1, 2010, S. 29-33
Executive Summary
Enterprise Carbon Accounting Research Report - (http://www.groomenergy.com/carbon_consulting.html#research)
Characteristics of ECA
To be successful, an Enterprise Carbon Accounting system should have the following characteristics:Comprehensive: Incorporates Scope 1,2 and 3 emissions
Periodic: Enables updates at regular intervals and comparisons across reporting periods
Auditable: Traces transactions and enables independent reviews for compliance
Flexible: Incorporates data from multiple approaches to life cycle analysis
Standards-Based: Accommodates existing generally accepted standards and emerging standards
Scalable: Accommodates growing volume and complexity of business operations
Efficient: Delivers data in the timeframe required for decision making
Enterprises that realize reduced emissions and energy consumption utilize systems with the following capabilities:
* Real-time historical energy data that is easily accessible
* Role-based visibility into plant emissions data
* Provides executives with real-time visibility into emissions data
* Ability to benchmark emissions levels with goals and industry standards
Process LCA
Process LCA is the most popular method, currently, for conducting life-cycle assessment, and is often referred to as the SETAC-EPA method because of the role played by SETAC and EPA in this method’s development. The inputs and outputs of multiple stages of a product’s life are investigated in turn, and the results are aggregated into single metrics of impact such as eutrophication, toxicity, and greenhouse gas emissions. Three tools exist on the market to assist researchers in conducting process LCA (such as GaBi, Ecoinvent, and Umberto). These tools contain data from previous researchers on the environmental impact of materials and processes that are then strung together by the user to form a system.Economic Input-Output LCA
Input-Output LCA utilizes economic input-output tables and industry-level environmental data to construct a database of environmental impacts per dollar sold by an industry. The boundary problem of process LCA is solved in this method because the economic input-output table captures the interrelations of all economic sectors; however, aggregated industrial categories limit the specificity of the results. Input–output analysis is a very powerful tool for the upfront screening of corporate carbon footprints, for informing streamlined supply-chain GHG accounting and for setting priorities for more detailed analyses.Hybrid LCA
Many methods for hybrid life-cycle assessments have been discussed, which aim to combine the infinite boundary of EIO-LCA with the specificity of Process LCA.Enterprise Carbon Accounting (ECA)
At its core, ECA is essentially a hybrid life-cycle assessment; however, rather than the traditional bottom-up approach of life-cycle assessment, ECA links financial data directly to LCA data to produce a snapshot of the companies’ operations. Rather than probing at areas thought to be problematic, ECA quickly identifies problem areas in the supply chain so that rapid action can be taken. This fundamental shift in thinking enables decision makers to rapidly address critical areas within the enterprise and supply chain.Socialised Supply Chain
Socialised supply chain accounting is the term generally applied to Enterprise Carbon Accounting Solutions that provide a collaborative mechanism for supply chain participants to engage, expose and determine supply chain emissions through the process of shared knowledge. The term "Socialised Supply Chain" was coined by the CEO of Nootrol, Mark Kearns to describe a platform where supply chain participants exposed Process LCA and embedded emissions.Additional Resources
Cobas-Flores, E. 1996. Life-cycle assessment using input-output analysis. Ph.D. dissertation, Carnegie Mellon University.Cumberland, J. H. and B. Stram. 1976. Empirical applications of input-output models to environmental protection. In Advances in input-output analysis: Proceedings of the sixth international conference on input-output techniques, Vienna, April
22–26, 1974, edited by K. R. Polenske and J. V. Skolka, pp. 365–382. Cambridge: Ballinger.
Hendrickson, C., Horvath, A., Joshi, S. and Lave, L. 1998. "Economic Input-Output Models for Environmental Life Cycle Assessment," Environmental Science and Technology, April: 184A-191A.
Heijungs, R. and S. Suh, The Computational Structure of Life Cycle Assessment, Springer, 2002.
IPCC (Intergovernmental Panel on Climate Change). 1995. IPCC guidelines for national greenhouse gas inventories, vol. 1–3. UNEP, OECD and IPCC.
Lave, L. B., E. Cobas-Flores, C. T. Hendrickson, and F. C. McMichael. 1995. Using input-output analysis to estimate economy-wide discharges. Environmental Science and Technology 29(9): 420A–426A.
Suh, S. “Functions, commodities and environmental impacts in an ecological–economic model” Ecological Economics, 48(4), April 2004, pp. 451–467.
The Greenhouse Gas Protocol Initiative
UN (United Nations). 1993. Integrated environmental and economic accounting. New York: United Nations Department of Economic and Social Information and Policy Analysis, Statistics Division.
Hufschlag, K.: Global Carbon Accounting at DP DHL (Weltweites Carbon Accounting bei Deutsche Post DHL), uwf - Umweltwirtschaftsforum 18, H.1, 2010, S. 29-33
Executive Summary
Enterprise Carbon Accounting Research Report - (http://www.groomenergy.com/carbon_consulting.html#research)
See also
- Carbon footprintCarbon footprintA carbon footprint has historically been defined as "the total set of greenhouse gas emissions caused by an organization, event, product or person.". However, calculating a carbon footprint which conforms to this definition is often impracticable due to the large amount of data required, which is...
- Life Cycle AssessmentLife cycle assessmentA life-cycle assessment is a technique to assess environmental impacts associated with all the stages of a product's life from-cradle-to-grave A life-cycle assessment (LCA, also known as life-cycle analysis, ecobalance, and cradle-to-grave analysis) is a technique to assess environmental impacts...
- Carbon accountingCarbon accountingCarbon accounting is the accounting process undertaken to measure the amount of carbon dioxide equivalents that will not be released into the atmosphere as a result of Flexible Mechanisms projects under the Kyoto Protocol. These projects thus include renewable energy projects and biomass, forage...
- Greenhouse Gas AccountingGreenhouse gas accountingGreenhouse gas accounting describes the way to inventory and audit greenhouse gas emissions.Guidance for accounting for GHG emissions from organizations and emission reduction projects is provided by the World Resources Institute and World Business Council for Sustainable Development GHG Protocol...