
Recycling centers

Minimal wait times

Bingo is always open

Competitive rates
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A Vision for the future
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What to expect when visiting our recycling centres






90% diversion rate from Landfill
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Frequently
asked questions
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When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass
When landfill gas is combusted in a flare, hydrogen sulphide is converted (oxidised) to sulphur dioxide, with nitrogen dioxide, carbon monoxide, and particulate matter. A detailed air quality assessment has been undertaken which considers all of these potential emission pathways, and pollutants noted above. The preliminary findings of the air quality impact assessment indicate that the concentrations of all pollutants assessed are below the NSW Environment Protection Authority air quality criteria, at all residential and industrial locations surrounding the Eastern Creek Recycling Ecology Park. Health and safety, environmental and sustainability benefits Overall, LFG flaring and generation projects significantly improve the environment because of the significant methane emission reductions and supporting the achievement of air pollutant reductions. The proposed permanent flare at Eastern Creek REP will result in approximately 265,000 tonnes of carbon dioxide equivalent avoided each year, which equates to an annual greenhouse gas emission reduction of 68 percent. Flaring LFG to manage landfill gas destroys most of the non-methane organic compounds (including air pollutants) that are present at low concentrations in landfill gas, which reduces possible health risks. A summary of other key benefits of the proposed landfill gas capture project are: The capture of a large proportion of LFG; Allows the treatment by combustion of the captured LFG, which: oxidises methane (CH4) to carbon dioxide (CO2), thereby reducing the greenhouse gas impact of those emissions; and oxidises odorous gases (such as H2S) to less-odorous compounds. What is the ass