1 / 27

Dynamic NH 3 model

Dynamic NH 3 model. EMEP atmospheric dispersion model. Deposition estimates used in policymaking Needs emission estimates Europe-wide (50 x 50 km grid). High temporal resolution (3 hours). Work in progress. Animal. Animal housing. Storage. Field. The model. Sources: Housing.

amos-guzman
Download Presentation

Dynamic NH 3 model

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Dynamic NH3 model EMEP atmospheric dispersion model. Deposition estimates used in policymaking Needs emission estimates Europe-wide (50 x 50 km grid). High temporal resolution (3 hours). Work in progress.

  2. Animal Animal housing Storage Field The model • Sources: • Housing. • Storage. • Field. • Mass flow model: • Ammoniacal N. • Organic N. • Dry matter. • Water. • Hourly timestep

  3. NH3 H2O Animal housing Manure storage NH4+ Organic-N H2O Manure

  4. NH3 H2O Field application NH4+ Organic-N H2O Manure Soil NH4+ H2O

  5. Area of manure * Amount of NH4+ * Henry-factor Amount of water * Transport resistance NH3 emission

  6. Area of manure * Amount of NH4+ * Henry-factor. Amount of water * Transport resistance Animal house emission Number of animals Floor area per animal Number of animals Urea-N per animal Temperature Manure pH Number of animals Volume per animal Ventilation rate Housing factor

  7. Area of manure * Amount of NH4+ * Henry-factor. Amount of water * Transport resistance Animal house emission Number of animals Floor area per animal Number of animals Urea-N per animal Temperature Manure pH Number of animals Volume per animal Ventilation rate Housing factor = parameter

  8. Parameterisation & testing • Lots of data. • Lots of time. • (see presentation on later today). • Temporary parameterisation using Dk emissions. • Synthetic weather data.

  9. Ammonia emission (kg/day) 10 000 finishing pigs per 50 x 50km

  10. Inputs  • Meteorological e.g. • Daily temperature, rainfall, wind speed etc. • Structural (vary with location) e.g. • Number of animals. • Type of animal housing. • Operational (vary with time & location) e.g. • Housing dates and ventilation rates. • Manure application dates.  

  11. Structural input examples • For each animal type: • Animal numbers. • Ammoniacal-N and organic N excreted per animal. • Housing/storage type. • Dairy cattle.

  12. Animal numbers • EUROSTAT Farm Structural Survey: • Animal numbers by type. • Regularly updated. • Some data missing. • NitroEurope project

  13. Dairy cattle

  14. Nitrogen excretion • Use IPCC methodology: • Feed intake, faecal dry matter production. • Data: • Milk production per cow (FSS). • Assumptions: • Diet quality, growth, weight.

  15. Manure type • Housing type depends on farm size? • Small volumes – solid manure cheapest. • Large volumes – slurry cheapest. • Relate probability of slurry to farm size. • Use farm size (FSS) to estimate slurry/solid. • Example from Denmark

  16. Operational example - ventilation • Simple dynamic model. • Estimate livestock heat production. • CIGAR (2002) • Calculate ventilation necessary to maintain: • A target inside temperature (forced ventilation). • Maximum and minimum ventilation rates. • Heating. • Inside temperature 4C above ambient (free).

  17. Forced ventilation

  18. Conclusions (1) • Lack harmonised data at European scale. • But may be available at country scale. • Operational management affected by legislation. • Modelling • How accurate? • Useful for scenarios.

  19. Conclusions (2) • Data required for many purposes. • Ammonia, Greenhouse gasses, Nitrate leaching, Erosion. • Secondary PM formation. • EU project. • Data collection. • Modelling.

  20. Parameters - storage • Depth of storage. • Manure pH and temperature. • Organic N degradation coefficient. • Transport resistance.

  21. Parameters - field • Start/stop date for applications • Maximum application capacity. • Application rate. • Transport resistance constant. • Infiltration rate. • Duration of emission.

  22. Animal housing • Dirty floor area per animal. • Manure pH and temperature. • Transport resistance.

More Related