Industry Comparison

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Current language: English (2023)

You are viewing information about the following Industries:

  • Iron & Steel Producers The Iron & Steel Producers industry primarily consists of entities producing iron and steel in mills and foundries. The steel producers segment produces iron and steel products from its own mills. These products include flat-rolled sheets, tin plates, pipes, tubes, and products made of stainless steel, titanium and high alloy steels. Iron and steel foundries, which cast various products, typically purchase iron and steel from other entities. The industry also includes metal service centres and other metal merchant wholesalers, which distribute, import or export ferrous products. Though entities are developing alternative processes, steel production primarily relies on two primary methods: the basic oxygen furnace (BOF), which uses iron ore as an input, and the electric arc furnace (EAF), which uses scrap steel. Many entities in the industry operate on an international scale. Note: With a few exceptions, most entities do not mine their own ore to manufacture steel and iron products. There exists a separate standard for the Metals & Mining (EM-MM) industry.
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  • Gas Utilities & Distributors The Gas Utilities & Distributors industry consists of gas distribution and marketing entities. Gas distribution involves operating local, low-pressure pipes to transfer natural gas from larger transmission pipes to end users. Gas marketing entities are gas brokers that aggregate and deliver natural gas in quantities that meet the needs of various customers, generally through other entities’ transmission and distribution lines. A relatively smaller portion of this industry is involved in propane gas distribution; therefore, this standard is focused on natural gas distribution. Both types of gas are used for heating and cooking by residential, commercial and industrial customers. In regulated markets, the utility is granted a full monopoly over the distribution and sale of natural gas. A regulator must approve the rates utilities charge to prevent the abuse of their monopoly position. In deregulated markets, distribution and marketing are separated legally, and customers have a choice of which entity from which to buy their gas. In this case, a common carrier utility is guaranteed a monopoly only over distribution and is required legally to transmit all gas equitably along its pipes for a fixed fee. Overall, entities must provide safe, reliable, low-cost gas, while effectively managing their social and environmental impacts, such as community safety and methane emissions.
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Relevant Issues for both Industries (10 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.
  • Iron & Steel Producers 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 Iron and steel production generates significant direct greenhouse gas (GHG) emissions, primarily carbon dioxide and methane, from production processes and on-site fuel combustion. Although technological improvements have reduced the GHG emissions per tonne of steel produced, steel production remains carbon-intensive compared to other industries. Regulatory efforts to reduce GHG emissions in response to the risks posed by climate change may result in additional regulatory compliance costs and risks for iron and steel entities because of climate change mitigation policies. Entities can achieve operational efficiencies through the cost-effective reduction of GHG emissions. Capturing such efficiencies can mitigate the potential financial effects of increased fuel costs from regulations that limit—or put a price on—GHG emissions.
    • 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 Iron and steel production typically generates criteria air pollutants, volatile organic compounds (VOCs) and hazardous air pollutants, which can have significant localised public health impacts. Of particular concern are sulphur oxides, nitrogen dioxide, lead, carbon monoxide and manganese, as well as particles such as soot and dust, released during production. Technological innovation and continuous improvements in steel-making processes have reduced air pollutants significantly from the Iron & Steel Producers industry. However, air pollutants remain a concern because of increased regulatory and public concern about air pollution, as well as expansion of steel production in emerging markets. In emerging markets, regulatory efforts to curb air pollution may constrain iron and steel production. Active management of facility emissions through industry best practices implementation across global operations can facilitate the transition to sustainable steel production, reducing costs and potentially enhancing operational efficiency.
    • 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 The production of steel requires significant energy, sourced primarily from the direct fossil fuel combustion as well as energy purchased from the grid. Energy-intense production has implications for climate change, and electricity purchases from the grid can result in indirect Scope 2 emissions. The choice between various production processes—electric arc furnaces and integrated basic oxygen furnaces—can influence whether an entity uses fossil fuels or purchases electricity. This decision, together with the choice between using coal versus natural gas or on-site versus grid-sourced electricity, may influence both the costs and reliability of energy supply. Affordable, easily accessible and reliable energy is an important industry competitive factor. Energy costs account for a substantial portion of iron and steel manufacturing costs. How an iron and steel entity manages its energy efficiency, its reliance on various types of energy and associated sustainability risks, and its ability to access alternative sources of energy can influence its profitability.
    • 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 Steel production requires substantial volumes of water. Entities face increasing operational, regulatory and reputational risks associated with water scarcity, costs of water acquisition, regulations on effluents or amount of water used, and competition with local communities and other industries for limited water resources. These risks are particularly likely to affect regions where water is scarce, resulting in water availability constraints and price volatility. Entities unable to secure a stable water supply could face production disruptions, while rising water prices could directly increase production costs. Consequently, entities adopting technologies and processes to decrease reduce water consumption may reduce operating risks and costs by mitigating the operational impacts of regulatory changes, water supply shortages and community-related disruptions.
    • Waste & Hazardous Materials Management The category addresses environmental issues associated with hazardous and non-hazardous waste generated by companies. It addresses a company’s management of solid wastes in manufacturing, agriculture, and other industrial processes. It covers treatment, handling, storage, disposal, and regulatory compliance. The category does not cover emissions to air or wastewater nor does it cover waste from end-of-life of products, which are addressed in separate categories.
      • Waste Management Although waste reclamation rates in steel production are high, the industry generates significant quantities of hazardous wastes. Slag, dusts and sludges constitute the three main industry waste types. These by-products often are recycled internally or sold to other industries. However, process wastes such as electric arc furnace dust, which may be regulated as a hazardous material because of its heavy metal content, can have significant environmental and human health impacts, present a regulatory risk, and result in additional operating costs for entities. Risks related to the long-term impacts of waste disposal may result in significant costs, including those associated with monitoring and managing contaminated off-site disposal properties, for which jurisdictional authorities may hold iron and steel producers responsible for remediation and restoration activities. Entities that reduce waste streams, hazardous waste streams in particular, and recycle or sell non-hazardous by-products, could mitigate regulatory risks and reduce costs while increasing revenues.
    • Access & Affordability The category addresses a company’s ability to ensure broad access to its products and services, specifically in the context of underserved markets and/or population groups. It includes the management of issues related to universal needs, such as the accessibility and affordability of health care, financial services, utilities, education, and telecommunications.
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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 Iron and steel production processes can present significant risks to employees and contractors working in iron and steel plants. Given the high temperatures and heavy machinery involved, worker injuries and fatalities are a matter of serious concern to iron and steel producers. Given the hazardous work environment, the industry has relatively high fatality rates requiring a strong safety culture and comprehensive health and safety policies. Although accident rates in the industry are in decline, worker injuries and fatalities can result in regulatory penalties, negative publicity, low worker morale and productivity, and increased healthcare and compensation costs.
    • Business Model Resilience The category addresses an industry’s capacity to manage risks and opportunities associated with incorporating social, environmental, and political transitions into long-term business model planning. This includes responsiveness to the transition to a low-carbon and climate-constrained economy, as well as growth and creation of new markets among unserved and underserved socio-economic populations. The category highlights industries in which evolving environmental and social realities may challenge companies to fundamentally adapt or may put their business models at risk.
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    • 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 Iron ore and coal are critical raw material inputs to the steel production process. Iron ore mining and coal production are resource-intensive processes. Mineral extraction often has substantial environmental and social impacts adversely affecting local communities, workers and ecosystems. Community protests, legal or regulatory action, or increased regulatory compliance costs or penalties can disrupt mining operations. Iron and steel entities could face supply disruptions as a result, or in some cases, also may be subject to regulatory penalties associated with the environmental or social impact of the mining entity supplier. Minimising such risks through appropriate supplier screening, monitoring and engagement, iron and steel producers may manage their direct critical raw materials suppliers proactively to ensure they are not engaged in illegal or otherwise environmentally or socially damaging practices.
    • Critical Incident Risk Management The category addresses the company’s use of management systems and scenario planning to identify, understand, and prevent or minimize the occurrence of low-probability, high-impact accidents and emergencies with significant potential environmental and social externalities. It relates to the culture of safety at a company, its relevant safety management systems and technological controls, the potential human, environmental, and social implications of such events occurring, and the long-term effects to an organization, its workers, and society should these events occur.
      None
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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.
      None
    • 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.
      None
    • 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.
      None
    • Waste & Hazardous Materials Management The category addresses environmental issues associated with hazardous and non-hazardous waste generated by companies. It addresses a company’s management of solid wastes in manufacturing, agriculture, and other industrial processes. It covers treatment, handling, storage, disposal, and regulatory compliance. The category does not cover emissions to air or wastewater nor does it cover waste from end-of-life of products, which are addressed in separate categories.
      None
    • Access & Affordability The category addresses a company’s ability to ensure broad access to its products and services, specifically in the context of underserved markets and/or population groups. It includes the management of issues related to universal needs, such as the accessibility and affordability of health care, financial services, utilities, education, and telecommunications.
      • Energy Affordability An objective of gas utilities is to deliver natural gas to customers in a safe, reliable and environmentally responsible manner. Entities in the industry manage these potentially competing priorities while maintaining favourable relations with customers and regulators—and ultimately to earn appropriate shareholder returns. From the utility customer perspective, the affordability of energy is challenging to balance, because it often conflicts with other core objectives. Utility energy bills generally are perceived to be increasingly more expensive for low-income customers (affordability is determined by both the net cost of energy bills and the underlying economics of customers). Ensuring utility bills remain affordable is crucial for utilities in building trust (intangible asset value) with regulators and customers. The quality of regulatory relations is an important value driver for utilities, and one of the issues analysed closely by investment analysts. Regulators’ willingness, or lack thereof, to grant rate requests, rate structure modifications, cost recovery and allowed returns is a primary determinant of financial performance and investment risk. Effectively managing affordability may provide opportunities to grow capital investment, revise rate structures favourably and increase allowed returns. Furthermore, utilities that ineffectively manage affordability increasingly face customers reducing their reliance upon natural gas (or reducing energy needs) and pursuing alternative energy sources (for example, industrial customers’ use of combined heat and power). Managing affordability involves operating an efficient business with a comprehensive, long-term strategy, as well as working closely with regulators and public policymakers on rate structures and, potentially, bill-assistance programmes. Although utility business models and rate structures largely determine the precise nature of the financial effects, affordability is a critical business issue for utilities managing, maintaining and growing their customer bases, building intangible asset value, creating investment and return opportunities, and ultimately delivering shareholder returns.
    • 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
    • Business Model Resilience The category addresses an industry’s capacity to manage risks and opportunities associated with incorporating social, environmental, and political transitions into long-term business model planning. This includes responsiveness to the transition to a low-carbon and climate-constrained economy, as well as growth and creation of new markets among unserved and underserved socio-economic populations. The category highlights industries in which evolving environmental and social realities may challenge companies to fundamentally adapt or may put their business models at risk.
      • End-Use Efficiency Natural gas produces fewer greenhouse gas (GHG) emissions than other fossil fuels. Expanding its use in the economy may be an important strategy for many governments and regulators striving to reduce GHG emissions. However, despite the relatively lower emissions, the natural gas value chain still produces meaningful levels of GHG emissions overall. As policymakers and regulators seek to mitigate climate change, the efficient consumption of natural gas will be an important long-term theme. Energy efficiency is a low-lifecycle-cost method to reduce greenhouse gas (GHG) emissions. Utilities can offer customers a wide range of options to promote energy efficiency, including providing rebates for energy-efficient appliances, weatherising customers’ homes and educating customers on energy saving methods. Overall, entities that sponsor efficiency initiatives may reduce the downside risks from demand fluctuations, gain returns on needed investments, decrease operating costs and earn higher risk-adjusted returns over the long term.
    • 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.
      None
    • Critical Incident Risk Management The category addresses the company’s use of management systems and scenario planning to identify, understand, and prevent or minimize the occurrence of low-probability, high-impact accidents and emergencies with significant potential environmental and social externalities. It relates to the culture of safety at a company, its relevant safety management systems and technological controls, the potential human, environmental, and social implications of such events occurring, and the long-term effects to an organization, its workers, and society should these events occur.
      • Integrity of Gas Delivery Infrastructure Operating a vast network of gas pipelines, equipment and storage facilities requires a multifaceted, long-term approach to ensuring infrastructure integrity and managing related risks. Although customers depend on reliable gas supplies, entities manage substantial risks—including those related to human health, property and greenhouse gas (GHG) emissions—that result from operating gas distribution networks and related infrastructure. Ageing infrastructure, inadequate monitoring and maintenance, and other operational factors may result in gas leaks. Gas leak safety-related risks, such as losses of containment, may result in fires or explosions that can be particularly dangerous in urban areas where entities often operate. Furthermore, gas leaks also result in fugitive emissions (methane), causing adverse environmental impacts. Regulated gas utilities generally incur no direct costs for gas leaks, because the cost of gas typically is passed on to customers (though this may vary by region). However, gas leaks that result in safety-related risks or fugitive emissions may affect entities financially through a variety of regulatory, legal and product demand channels. Accidents, particularly fatal accidents, may result in negligence claims against entities, leading to costly court battles and fines. GHG emissions may result in increased regulatory scrutiny—a critical element directly connected to financial performance, given the importance of regulatory relations—and potential fines and penalties. Importantly, regulated gas utilities can financially benefit from capital investment opportunities to improve performance and mitigate risks related to safety and emissions, which can be factored into their rate base. Entities manage such risks through pipeline replacements, regular inspections and monitoring, employee training and emergency preparedness, investments in technology, and other strategies such as working closely with regulators. In response to concerns about ageing infrastructure, many entities are seeking ways to expedite the replacement permitting and approval process, especially in cases where pipelines are located near densely populated areas.

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