Market-based approaches and tools for improving water and air quality

Nitrogen (N) losses from agriculture are negatively impacting groundwater, air, and surface water quality. National, state, and local policies and procedures that can mitigate these problems are needed. Market-based approaches where waste treatment plants (point sources) can purchase nutrient credits from upstream agricultural operations (non-point sources) to meet their National Pollutant Discharge Elimination System permit requirements within the Clean Water Act are being explored. This paper reviews these market-based approaches for enhancing air and water quality at a lower cost than simple command-and-control regulation, and describes new tools that are being developed, such as Nitrogen Trading Tool (NTT),...

Categories: Publication; Types: Citation; Tags: Carbon sequestration equivalents, Data Visualization & Tools, Global warming potential, Landscapes, NLEAP, All tags... NTT, Nitrogen management, Nitrous oxide, Northeast CASC, Nutrient trading, Other Landscapes, Science Tools For Managers, Water quality, Fewer tags

Reduction of CO2 emission and oil dependency with biomass-based polygeneration

Shale gas is viewed by many as a global energy game-changer. However, serious concerns exist that shale gas generates more greenhouse gas emissions than does coal. In this work the related published data are reviewed and a reassessment is made. It is shown that the greenhouse gas effect of shale gas is less than that of coal over long term if the higher power generation efficiency of shale gas is taken into account. In short term, the greenhouse gas effect of shale gas can be lowered to the level of that of coal if methane emissions are kept low using existing technologies. Further reducing the greenhouse gas effect of shale gas by storing CO2 in depleted shale gas reservoirs is also discussed, with the conclusion...

Categories: Publication; Types: Citation; Tags: CO2 storage, Global warming potential, Shale gas

Methane and the greenhouse-gas footprint of natural gas from shale formations

We evaluate the greenhouse gas footprint of natural gas obtained by highvolume hydraulic fracturing from shale formations, focusing on methane emissions. Natural gas is composed largely of methane, and 3.6% to 7.9% of the methane from shale-gas production escapes to the atmosphere in venting and leaks over the lifetime of a well. These methane emissions are at least 30% more than and perhaps more than twice as great as those from conventional gas. The higher emissions from shale gas occur at the time wells are hydraulically fractured—as methane escapes from flow-back return fluids—and during drill out following the fracturing. Methane is a powerful greenhouse gas, with a global warming potential that is far greater...

Categories: Publication; Types: Citation; Tags: Bridge fuel, Fugitive emissions, GWP, Global warming, Global warming potential, All tags... Greenhouse gases, LCA, Lifecycle analysis, Methane, Natural gas, Shale gas, Transitional fuel, Unconventional gas, Fewer tags

Reducing the greenhouse gas footprint of shale gas

Shale gas is viewed by many as a global energy game-changer. However, serious concerns exist that shale gas generates more greenhouse gas emissions than does coal. In this work the related published data are reviewed and a reassessment is made. It is shown that the greenhouse gas effect of shale gas is less than that of coal over long term if the higher power generation efficiency of shale gas is taken into account. In short term, the greenhouse gas effect of shale gas can be lowered to the level of that of coal if methane emissions are kept low using existing technologies. Further reducing the greenhouse gas effect of shale gas by storing CO2 in depleted shale gas reservoirs is also discussed, with the conclusion...

Categories: Publication; Types: Citation; Tags: CO2 storage, Global warming potential, Shale gas