o.4Public health regulatory controls

o.4Public health regulatory controls

o.5Environmental regulatory controls

o.5.1Air quality management

Potential air quality issues from combustion of fuels containing MMT include exhaust emissions of various Mn compounds (e.g. Mn oxides, Mn phosphate, Mn sulphate) and small particles (estimated in the 0.056 to 3.1 μm range; Roos et al., 2000).

Emissions of ‘air toxics’ (defined below) in Australia are regulated through individual State and Territory regulatory systems rather than at a National level and each State and Territory has established legislative frameworks and strategies for monitoring and managing air quality. National-level strategies are or have been developed to allow consistent management of ambient air quality throughout Australia.

Air toxics are gaseous, aerosol or particulate pollutants that are present in the air in low concentrations with characteristics such as toxicity or persistence so as to be hazardous to human, plant or animal life. The terms ‘air toxics’ and ‘hazardous air pollutants’ (HAPs) are used interchangeably. Air toxics include volatile and semi-volatile organic compounds, polycyclic aromatic hydrocarbons, metals and aldehydes (NEPC, 2002). Specific emission limitations and maximum ground level concentrations for individual sources are used in some States to control emissions from industrial sources (NEPC, 2002).

Emissions of air toxics from new motor vehicles are controlled through Australian Design Rules that set emission standards for a range of pollutants (not including Mn). These standards are set at a National level rather than State or Territory level. Recently the Australian Government introduced National fuel quality standards that will also reduce the level of some air toxics in ambient air. Manganese is not regulated by these standards and MMT is not listed currently on the register of prohibited fuel additives.

At a National level, at least two National Environment Protection Measures (NEPMs) apply to air quality including the National Pollutant Inventory (NPI) NEPM (NEPC, 1998a) and the Ambient Air Quality NEPM (NEPC, 1998b). An additional NEPM (Ambient Air Toxics) is also being developed (NEPC, 2002).

At a National level, particulates are included in the Ambient Air Quality National Environment Protection Measure (NEPC, 1998b), which sets national standards for the six air pollutants including airborne particles (as PM10, and PM2.5 is proposed to be included). The National standard for particulates (as PM10) in ambient air is 50 g/m³ (1 day average with 5 allowable daily exceedences per year), for implementation throughout Australia by 2008 (NEPC, 2002).

Manganese compounds are not specifically included in either the Ambient Air Quality NEPM (NEPC, 1998b) or the Ambient Air Toxics NEPM being developed (NEPC, 2002). An inventory of emissions of Mn and compounds, Mn fumes and particulate matter (PM10) from significant emission facilities are included in the National Pollutant Inventory NEPM (NEPC, 1998a). For the reporting period 2000 to 2001, the NPI database indicates that those industrial reporting facilities throughout Australia that provided data reported emissions of 140 tonnes of manganese to air, 30 tonnes to land and 1100 tonnes to waters. Emissions from sources other than reporting facilities (smaller companies and non-industrial sources) for the same period totalled an additional 380 tonnes of manganese to air. Total air emissions to the Sydney, Newcastle and Wollongong airshed (2000-2001 period) consisted of 15 tonnes of manganese.

Although the NPI database contains air, land and water emissions data for manganese from some NPI reporting facilities, the current year (2001-2002) is the first reporting period for facilities meeting a reporting criteria for manganese and manganese compounds (ie. use of >10 tonnes per annum) and so many more industrial emissions sources are expected to report for this period. The emissions data for the reporting period 2001-2002 will be available in early 2003.

International air quality management

Several international organisations have introduced regulations or policies that aim to limit the exposure of the general public to air particulates. This is relevant to the use of MMT as an AVSR as combustion of MMT results in particulate inorganic Mn compounds. The Organisation for Economic Cooperation and Development has implemented the Advanced Air Quality Indicators and Reporting Project in OECD member countries, including Australia (OECD, 1999). The project focuses on six major urban air pollutants, including particulate matter.

In the United States, air quality is managed and regulated under the Clean Air Act (CAA) 1970. The National Air Toxics Program: The Integrated Urban Air Strategy outlines a strategy for addressing cumulative health risks from identified HAPs, including Mn compounds in urban areas (USEPA, 1999). The Strategy also establishes air monitoring requirements for motor vehicle emissions including vehicles using fuels containing MMT and sets standards for HAPs emitted from motor vehicles and fuels.

In Canada, a range of air toxics including particulates PM10 and PM2.5 are measured and analysed within the National Air Pollution Surveillance (NAPS) Network. The NAPS network was established in 1969 to monitor and assess the quality of ambient air in Canadian urban areas.

In the United Kingdom, airborne particulates are managed by the Department of Environment, Transport and Regions (UKDETR), which established a benchmark standard for particles in air.

o.5.2Aquatic ecosystem management

o.5.3Disposal and waste treatment