Biofuels industry entities produce biofuels and process raw materials for production. Using organic feedstocks, entities manufacture biofuels that are used primarily in transportation. Entities typically source feedstocks, which include food, oil crops and animal products, from agricultural product distributors. Ethanol and biodiesel are the most widely produced biofuels, while other types include biogas, biohydrogen and synthetic biofuels, produced from a variety of organic feedstocks. Biofuels entities’ customers are chiefly fuel-blending and fuel-supply entities, including major integrated oil entities. Government regulations related to the use of renewable fuel are a significant demand driver in the industry.More

Relevant Issues (6 of 26)

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General Issue Category
(Industry agnostic)

Disclosure Topics (Industry specific) for: Biofuels

Air Quality
  • Air Quality

    Biofuel refineries generate air emissions that may include air pollutants and volatile organic compounds. Grain-handling equipment, boilers, wastewater treatment, and cooling, drying, distillation and fermentation units generate emissions. In most regions, such emissions typically are subject to jurisdictional regulations that limit emissions below specific thresholds. As a result, air emissions often are subject to emissions permits and abatement that may result in incremental operating and compliance costs or capital expenditures. Entities also may face regulatory penalties, as well as permit restrictions or delays from jurisdictional legal or regulatory authorities for non-compliance.More
Water & Wastewater Management
  • Water Management in Manufacturing

    Biofuel refining is water-intensive. Biorefineries require water for feedstock processing, fermentation, distillation and cooling. Although water use at biorefineries is modest relative to the quantities consumed during feedstock crop production, it is concentrated, and thus may affect local water resources. Facilities also may generate wastewater containing salts, organic compounds, dissolved solids, phosphorus and other substances, requiring wastewater treatment. Biofuel refineries also may face reduced water availability, related cost increases or operational disruptions. Water extraction from particular areas for refining, as well as contamination of water supplies because of refining operations, also could create regulatory risk and tensions with local communities. Water efficiency in operations and the proper treatment of effluents are therefore important for biofuels entities.More
Product Design & Lifecycle Management
  • Lifecycle Emissions Balance

    The rapid growth in global biofuels production has been encouraged by government energy policies that seek to reduce net GHG emissions from transportation fuels and dependence on fossil fuels. Most major renewable-fuel policies worldwide require that biofuels achieve lifecycle GHG emissions reductions relative to a fossil-fuel baseline to qualify for renewable fuel-mandate thresholds. The biofuel lifecycle emission calculation may include indirect and direct emissions from feedstock crop production and land use, fuel refining, fuel and feedstock transport, and vehicle exhaust emissions. Biofuel producers may influence net emissions directly during the refining process through energy management (fuel use), process innovations and by using feedstocks with lower emissions profiles. Fuel products that achieve a reduction in net emissions may qualify as advanced biofuels, which could increase future demand. Biofuel entities that cost-effectively reduce product net carbon emissions may gain a competitive product advantage, spur revenue growth and increase market share.More
Supply Chain Management
  • Sourcing & Environmental Impacts of Feedstock Production

    The Biofuels industry uses a variety of plant-based feedstocks for production. Most entities purchase feedstocks from agricultural producers and distributors. A growing proportion of the world’s arable land now is occupied by biofuel crops. Unsustainable cultivation practices can have negative environmental externalities, including deforestation and biodiversity loss, soil degradation, and water pollution. These factors may affect feedstock crop yields adversely over the short- and long-term. This, in turn, may influence the price and availability of feedstocks for biofuels producers. Consequently, vetting the sustainability of supply chains, such as through certifications or engagement with suppliers, is an important consideration for biofuels producers.More
Management of the Legal & Regulatory Environment
  • Management of the Legal & Regulatory Environment

    The Biofuels industry is dependent on government policies and regulations that create market demand and incentivise supply with tax breaks and other support for feedstock production. The Biofuels industry supports some regulations and policies related to renewable fuel policy, production tax credits and feedstock production. While regulatory support can result in positive short-term gains by supporting the biofuels market, the potential long-term adverse environmental impacts from feedstock and biofuels production may result in a reversal of beneficial policies, leading to a more uncertain regulatory environment. Consequently, biofuels entities may benefit from developing clear strategies for engaging regulators that are aligned with long-term sustainable business outcomes and that account for environmental externalities.More
Critical Incident Risk Management
  • Operational Safety, Emergency Preparedness & Response

    Biofuel production presents operational safety hazards because of the presence of flammable and explosive substances, high temperatures, and pressurised equipment. Process safety incidents can damage facilities, injure workers, and affect the local environment and communities. Although the frequency of accidents in the industry is relatively low, when they do take place, the outcomes may be severe, with significant effects on financial performance. Damaged facilities may be inoperable for extended periods, resulting in lost revenues and large capital expenditures for repairs. Entities perceived to be at a greater risk of process safety incidents may have a higher cost of capital, while workforce injuries could result in regulatory penalties and litigation. Conversely, entities with a strong safety culture and operational safety oversight may detect and respond more effectively to such incidents, mitigating potential financial risks and improving operational efficiency.More