Industry Comparison

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Current language: English (2023)

You are viewing information about the following Industries:

  • Fuel Cells & Industrial Batteries Fuel Cells & Industrial Batteries industry entities manufacture fuel cells for energy production and energy storage equipment such as batteries. Manufacturers in this industry mainly sell products to entities for varied energy-generation and energy-storage applications and intensities, from commercial business applications to large-scale energy projects for utilities. Entities in the industry typically have global operations and sell products to a global marketplace.
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  • Pulp & Paper Products Pulp & Paper Products industry entities manufacture a range of wood pulp and paper products, including pulp fibre, paper packaging and sanitary paper, office paper, newsprint, and paper for industrial applications. Entities in the industry typically function as business-to-business entities and may have operations in multiple countries. Although some integrated entities own or manage timber tracts and are engaged in forest management, sustainability issues arising from these activities are addressed in the Forestry Management (RR-FM) industry.
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Relevant Issues for both Industries (8 of 26)

Why are some issues greyed out? The SASB Standards vary by industry based on the different sustainability-related risks and opportunities within an industry. The issues in grey were not identified during the standard-setting process as the most likely to be useful to investors, so they are not included in the Standard. Over time, as the ISSB continues to receive market feedback, some issues may be added or removed from the Standard. Each company determines which sustainability-related risks and opportunities are relevant to its business. The Standard is designed for the typical company in an industry, but individual companies may choose to report on different sustainability-related risks and opportunities based on their unique business model.

Disclosure Topics

What is the relationship between General Issue Category and Disclosure Topics? The General Issue Category is an industry-agnostic version of the Disclosure Topics that appear in each SASB Standard. Disclosure topics represent the industry-specific impacts of General Issue Categories. The industry-specific Disclosure Topics ensure each SASB Standard is tailored to the industry, while the General Issue Categories enable comparability across industries. For example, Health & Nutrition is a disclosure topic in the Non-Alcoholic Beverages industry, representing an industry-specific measure of the general issue of Customer Welfare. The issue of Customer Welfare, however, manifests as the Counterfeit Drugs disclosure topic in the Biotechnology & Pharmaceuticals industry.
  • Fuel Cells & Industrial Batteries Remove
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    • GHG Emissions The category addresses direct (Scope 1) greenhouse gas (GHG) emissions that a company generates through its operations. This includes GHG emissions from stationary (e.g., factories, power plants) and mobile sources (e.g., trucks, delivery vehicles, planes), whether a result of combustion of fuel or non-combusted direct releases during activities such as natural resource extraction, power generation, land use, or biogenic processes. The category further includes management of regulatory risks, environmental compliance, and reputational risks and opportunities, as they related to direct GHG emissions. The seven GHGs covered under the Kyoto Protocol are included within the category—carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulfur hexafluoride (SF6), and nitrogen trifluoride (NF3).
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    • Air Quality The category addresses management of air quality impacts resulting from stationary (e.g., factories, power plants) and mobile sources (e.g., trucks, delivery vehicles, planes) as well as industrial emissions. Relevant airborne pollutants include, but are not limited to, oxides of nitrogen (NOx), oxides of sulfur (SOx), volatile organic compounds (VOCs), heavy metals, particulate matter, and chlorofluorocarbons. The category does not include GHG emissions, which are addressed in a separate category.
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    • Energy Management The category addresses environmental impacts associated with energy consumption. It addresses the company’s management of energy in manufacturing and/or for provision of products and services derived from utility providers (grid energy) not owned or controlled by the company. More specifically, it includes management of energy efficiency and intensity, energy mix, as well as grid reliance. Upstream (e.g., suppliers) and downstream (e.g., product use) energy use is not included in the scope.
      • Energy Management Manufacturing in the Fuel Cells & Industrial Batteries industry requires energy to power machines and cooling, ventilation, lighting and product-testing systems. Purchased electricity is a major share of the energy sources used in the industry and accounts for a notable proportion of the total cost of materials and value added. Various sustainability factors are increasing the cost of conventional electricity while making alternative sources cost-competitive. Energy efficiency efforts may have a significant positive impact on operational efficiency and profitability, especially because many entities operate on relatively low or negative margins. By improving manufacturing process efficiency and exploring alternative energy sources, fuel cell and industrial battery entities may reduce both their indirect environmental impacts and their operating expenses.
    • Water & Wastewater Management The category addresses a company’s water use, water consumption, wastewater generation, and other impacts of operations on water resources, which may be influenced by regional differences in the availability and quality of and competition for water resources. More specifically, it addresses management strategies including, but not limited to, water efficiency, intensity, and recycling. Lastly, the category also addresses management of wastewater treatment and discharge, including groundwater and aquifer pollution.
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    • Employee Health & Safety The category addresses a company’s ability to create and maintain a safe and healthy workplace environment that is free of injuries, fatalities, and illness (both chronic and acute). It is traditionally accomplished through implementing safety management plans, developing training requirements for employees and contractors, and conducting regular audits of their own practices as well as those of their subcontractors. The category further captures how companies ensure physical and mental health of workforce through technology, training, corporate culture, regulatory compliance, monitoring and testing, and personal protective equipment.
      • Workforce Health & Safety Fuel cell and industrial battery manufacturing workers may be exposed to hazardous substances or workplace accidents that can have chronic or acute health impacts. Entities may face litigation because of injuries or chronic health impacts from working in fuel cell and battery manufacturing or recycling facilities. Entities that develop and implement strong safety processes and internal controls, including through providing health and safety training, protective gear, improved ventilation, and regular health monitoring, can improve workforce health and safety performance and mitigate regulatory and litigation risks.
    • Product Design & Lifecycle Management The category addresses incorporation of environmental, social, and governance (ESG) considerations in characteristics of products and services provided or sold by the company. It includes, but is not limited to, managing the lifecycle impacts of products and services, such as those related to packaging, distribution, use-phase resource intensity, and other environmental and social externalities that may occur during their use-phase or at the end of life. The category captures a company’s ability to address customer and societal demand for more sustainable products and services as well as to meet evolving environmental and social regulation. It does not address direct environmental or social impacts of the company’s operations nor does it address health and safety risks to consumers from product use, which are covered in other categories.
      • Product Efficiency Both customer demand and regulatory requirements are driving innovation in energy-efficient products with lower environmental impacts and lower total cost of ownership. Therefore, research and development in the Fuel Cells & Industrial Batteries industry that drive energy and thermal efficiency and enhance storage capacities may lower barriers to adoption. Advances in battery technology to increase storage capabilities and improve charging efficiencies, while reducing costs for customers, are critical for the integration of renewable energy technologies into the grid. Pressured by stricter environmental regulations, high energy costs and customer preferences, fuel cell and industrial battery manufacturers that improve efficiency in the use phase may increase revenue and market share.
      • Product End-of-life Management As the rate of adoption of fuel cells and industrial batteries increases and more products reach their end of life, designing products to facilitate end-of-life management and maximise materials efficiency may become increasingly important. Fuel cells and batteries may contain hazardous substances, which must be properly discarded because they can pose human health or environmental risks. The emergence of several laws regarding the end-of-life phase of batteries recently has increased the importance of the issue, creating potential added costs of managing risks, as well as opportunities, through regulatory incentives. Effective design for disassembly and reuse or recycling will be an important element for increasing recovery rates to reduce the lifecycle impacts of fuel cells and batteries. Furthermore, given the input-price volatility and resource constraints of some raw materials, fuel cell and industrial battery entities that develop take-back and recycling systems and reuse recovered materials in manufacturing may increase their long-term operational efficiency and improve their risk profile.
    • Supply Chain Management The category addresses management of environmental, social, and governance (ESG) risks within a company’s supply chain. It addresses issues associated with environmental and social externalities created by suppliers through their operational activities. Such issues include, but are not limited to, environmental responsibility, human rights, labour practices, and ethics and corruption. Management may involve screening, selection, monitoring, and engagement with suppliers on their environmental and social impacts. The category does not address the impacts of external factors – such as climate change and other environmental and social factors – on suppliers’ operations and/or on the availability and pricing of key resources, which is covered in a separate category.
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    • Materials Sourcing & Efficiency The category addresses issues related to the resilience of materials supply chains to impacts of climate change and other external environmental and social factors. It captures the impacts of such external factors on operational activity of suppliers, which can further affect availability and pricing of key resources. It addresses a company’s ability to manage these risks through product design, manufacturing, and end-of-life management, such as by using of recycled and renewable materials, reducing the use of key materials (dematerialization), maximizing resource efficiency in manufacturing, and making R&D investments in substitute materials. Additionally, companies can manage these issues by screening, selection, monitoring, and engagement with suppliers to ensure their resilience to external risks. It does not address issues associated with environmental and social externalities created by operational activity of individual suppliers, which is covered in a separate category.
      • Materials Sourcing Manufacturing some types of industrial batteries and fuel cells requires an available supply of materials such as lithium, cobalt, nickel and platinum. Access to these materials is critical for the continuous development and scaling of clean energy technologies like fuel cells and industrial batteries. Limited global resources of these critical materials, as well as their concentration in countries that may have relatively limited governance and regulatory structures or are subject to geopolitical tensions, expose entities to the risk of supply-chain disruptions and input-price increases or volatility. At the same time, competition from other industries that use the same critical materials or employ fuel cell and battery technologies may exacerbate supply risks. Fuel cell and industrial battery entities with strong supply-chain standards and the ability to adapt to increasing resource scarcity may protect shareholder value better. Entities that reduce the use of critical materials and secure supply of the materials they do use may mitigate potential financial effects because of supply disruptions, volatile input prices, and reputational and regulatory risks.
  • Pulp & Paper Products Remove
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    • GHG Emissions The category addresses direct (Scope 1) greenhouse gas (GHG) emissions that a company generates through its operations. This includes GHG emissions from stationary (e.g., factories, power plants) and mobile sources (e.g., trucks, delivery vehicles, planes), whether a result of combustion of fuel or non-combusted direct releases during activities such as natural resource extraction, power generation, land use, or biogenic processes. The category further includes management of regulatory risks, environmental compliance, and reputational risks and opportunities, as they related to direct GHG emissions. The seven GHGs covered under the Kyoto Protocol are included within the category—carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulfur hexafluoride (SF6), and nitrogen trifluoride (NF3).
      • Greenhouse Gas Emissions The manufacturing of pulp and paper products generates direct greenhouse gas (GHG) emissions associated with the combustion of fossil fuels and biomass in stationary and mobile engines, cogeneration boilers, and other processing equipment. Entities in this industry also typically use significant amounts of carbon-neutral biomass for their energy needs, the use of which may reduce the costs associated with purchasing fossil fuels, as well as mitigate regulatory risk associated with carbon emissions. Emissions associated with fossil fuel sources may add regulatory compliance costs, depending on the magnitude of emissions and the prevailing emissions regulations. Entities that cost-effectively manage GHG emissions through greater energy efficiency, alternative fuels use or manufacturing process improvements may benefit from improved operating efficiency and reduced regulatory compliance costs.
    • Air Quality The category addresses management of air quality impacts resulting from stationary (e.g., factories, power plants) and mobile sources (e.g., trucks, delivery vehicles, planes) as well as industrial emissions. Relevant airborne pollutants include, but are not limited to, oxides of nitrogen (NOx), oxides of sulfur (SOx), volatile organic compounds (VOCs), heavy metals, particulate matter, and chlorofluorocarbons. The category does not include GHG emissions, which are addressed in a separate category.
      • Air Quality Pulp and paper products mills generate air emissions including sulphur oxides, nitrogen oxides and particulate matter. The sources of emissions include cogeneration fuel boilers, pulp and paper pressure chambers, wood chip pulping, pulping chemical recovery, and process engines. Although emissions from the industry have declined considerably in recent years, emissions abatement expenditures may be significant, while evolving air-quality regulations can create regulatory uncertainty. Entities that can cost-effectively reduce air emissions may improve operational efficiency, benefit from a lower cost structure and mitigate regulatory risk.
    • Energy Management The category addresses environmental impacts associated with energy consumption. It addresses the company’s management of energy in manufacturing and/or for provision of products and services derived from utility providers (grid energy) not owned or controlled by the company. More specifically, it includes management of energy efficiency and intensity, energy mix, as well as grid reliance. Upstream (e.g., suppliers) and downstream (e.g., product use) energy use is not included in the scope.
      • Energy Management Pulp and paper products manufacturing is energy-intensive. In most facilities, entities generate energy primarily from the combustion of biomass and fossil fuels, although purchased electricity also may be used in some facilities. Decisions regarding on-site electricity generation versus sourcing it from the grid, as well as the use of biomass and other renewable energy, may create trade-offs related to the energy supply’s cost and reliability for operations and the extent of the regulatory risk from Scope 1 or other air emissions. The way an entity manages energy efficiency, its reliance on varied types of energy and the associated sustainability risks, and its access to alternative energy sources, may mitigate the effects of energy cost variability.
    • Water & Wastewater Management The category addresses a company’s water use, water consumption, wastewater generation, and other impacts of operations on water resources, which may be influenced by regional differences in the availability and quality of and competition for water resources. More specifically, it addresses management strategies including, but not limited to, water efficiency, intensity, and recycling. Lastly, the category also addresses management of wastewater treatment and discharge, including groundwater and aquifer pollution.
      • Water Management Pulp and paper products manufacturing is typically water-intensive in materials processing, process cooling and steam generation at on-site energy plants. Entities require ample, stable water supplies and may produce large volumes of wastewater, the majority of which is treated and returned to the environment. Process water typically contains dissolved organic compounds and other solids, underscoring the importance of water treatment. In addition to water effluents, water availability is an important consideration because water scarcity may result in higher supply costs, supply disruptions or tension with local water users. Entities may adopt various strategies to address water supply and treatment issues, such as cost-effectively enhancing the recycling of process water, improving production techniques to lower water intensity, and ensuring compliance with water-effluent regulations.
    • Employee Health & Safety The category addresses a company’s ability to create and maintain a safe and healthy workplace environment that is free of injuries, fatalities, and illness (both chronic and acute). It is traditionally accomplished through implementing safety management plans, developing training requirements for employees and contractors, and conducting regular audits of their own practices as well as those of their subcontractors. The category further captures how companies ensure physical and mental health of workforce through technology, training, corporate culture, regulatory compliance, monitoring and testing, and personal protective equipment.
      None
    • Product Design & Lifecycle Management The category addresses incorporation of environmental, social, and governance (ESG) considerations in characteristics of products and services provided or sold by the company. It includes, but is not limited to, managing the lifecycle impacts of products and services, such as those related to packaging, distribution, use-phase resource intensity, and other environmental and social externalities that may occur during their use-phase or at the end of life. The category captures a company’s ability to address customer and societal demand for more sustainable products and services as well as to meet evolving environmental and social regulation. It does not address direct environmental or social impacts of the company’s operations nor does it address health and safety risks to consumers from product use, which are covered in other categories.
      None
    • Supply Chain Management The category addresses management of environmental, social, and governance (ESG) risks within a company’s supply chain. It addresses issues associated with environmental and social externalities created by suppliers through their operational activities. Such issues include, but are not limited to, environmental responsibility, human rights, labour practices, and ethics and corruption. Management may involve screening, selection, monitoring, and engagement with suppliers on their environmental and social impacts. The category does not address the impacts of external factors – such as climate change and other environmental and social factors – on suppliers’ operations and/or on the availability and pricing of key resources, which is covered in a separate category.
      • Supply Chain Management Pulp and paper products entities source wood and wood fibre from forestry management entities, paper fibre recyclers and forests that the entities themselves manage. Supply chain risks include decreased productivity of forestlands because of management practices or climate change, regulations addressing sustainable forest management, and reputational effects. To mitigate such risks and satisfy growing customer demand for sustainably sourced fibre and paper products, manufacturers implement forest certification and fibre chain-of-custody standards which verify that virgin and recycled fibre originate from sustainably managed forests. In addition, pulp and paper manufacturers may face trade-offs from the use of recovered fibre. Products with recycled content are increasingly in demand, providing a possible avenue for product differentiation, while using recycled fibre can minimise the need for virgin fibre. Conversely, manufacturing products with a greater recycled content may increase waste generation and energy consumption, while recycled fibre can be costlier, given demand–supply gaps. Therefore, entities may benefit by optimising recycled fibre use to balance its environmental and economic trade-offs.
    • Materials Sourcing & Efficiency The category addresses issues related to the resilience of materials supply chains to impacts of climate change and other external environmental and social factors. It captures the impacts of such external factors on operational activity of suppliers, which can further affect availability and pricing of key resources. It addresses a company’s ability to manage these risks through product design, manufacturing, and end-of-life management, such as by using of recycled and renewable materials, reducing the use of key materials (dematerialization), maximizing resource efficiency in manufacturing, and making R&D investments in substitute materials. Additionally, companies can manage these issues by screening, selection, monitoring, and engagement with suppliers to ensure their resilience to external risks. It does not address issues associated with environmental and social externalities created by operational activity of individual suppliers, which is covered in a separate category.
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