Needs for Emission Inventory Update in China Environmental
Monitoring
Environmental Satellite Center, the Ministry of Environmental Protection of China
Li Qing
Outline
1. The pollution source investigation in China2. The importance for getting the emission by
Remote Sensing technology3. Specific needs for pollution inventory by top
down method 4. Discussion5. Conclusion
Pollution Sources are the places, fa
cilities, installations etc, from productio
n, living and other activities or other so
urces which can emit the pollutants or
have adverse effects on environment.
The pollution source investigation is
an important work to know the situatio
n of the country. It is a basic and strat
egical work for environmental protectio
n in China .
The pollution source investigation in China
1. 1985, the first pollution source investigation, Just concerning industrial sectors.
2. 2008,the first national pollution source census.
Stage summary meeting for national pollution source census
The first national pollution source census in China
includes three parts: 1. All industrial pollution sources, in order to get the following specifications: the
basic information of pollution sources, the type, concentration , emission quantity of the pollutants, and the pollution control facilities and their operation conditions .
2 . Agricultural sources, to know the pollutants emitted mainly from scaled breed aquatics and non-point pollution , including scaled water usage and drainage, usage of chemical fertilizers, pesticides, feed and feed additives; and the conditions of disposing straw and other crop residues ; emission quantity and its regulation of the key pollutants, and also includes the situation of pollution control facilities and their operation status.
3. life sources : sewage, garbage and medical waste
Finally, the database of pollution source inventory will be established according to the technical specifications of the census .
sewage garbage medical waste
The aim for pollution source census in China
investigate the number, sector and regional distribution of almost all kinds of pollution sources
find out the generation, emission and disposal of the key pollutants
establish and improve the database of the pollution source inventory
in order to provide evidence for establishing policy and plans for socio-economic development and environmental protection, especially important for making pollution control policy for environmental protection.
2. The importance for getting the air pollution emission by Remote Sensing Technology
The above source investigation introduced is a routine way, often called as down-top method.
As to investigate the pollution source information: energy data, emission factors, socio-economic information. To energy data, emissions from fuel combustion sources in one of the main part ,but it includes many sectors and fuel types. It is difficult to quantify the uncertainties of some factors such as emission factors and activity levels , so sometimes judgment from expert is often used to assign estimates uncertainties to emissions.
Questions: Is it reliable of the energy data and socio-economic information? Is it applicable of the emission factor? Is it objective of the activity level? ………..?? These factors still limit to ensure the quality of data. The most
of the aspects are difficult to be got comprehensively and accurately by traditional down-top way.
Besides, despite the importance of understanding the situation of annual, seasonal or even daily variations of air quality, it is very hard to do the time series of emissions work.
In China, national pollution source census concerning a wide range and many departments. It is a very tough task. It is time-consuming, and needs high technology to support, also the result just represents the situation in a fixed time. It is hard to satisfy the need of China Environmental monitoring, management, and supervision.
Remote Sensing method can contribute to emission inventory
As we know, Emission inventory of pollution source is an integrated list of various pollutants emitted by all kinds of air pollution source in a specific geographical area at a certain time interval. A complete list includes: background information, description of geographical area, a detailed description of various types of pollution sources, and the estimation quantity for different types of pollutants and the relative estimation method.
Now it is possible to improve the traditional investigation way by top-down methodThe space-based Global Observing System
Satellite Sensors for the Observation of air : TOMS: ( Nimbers7(1978-1993) ;Meteor-3(1991-1994) ; Earth Probe
(1996-2005) (O3, SO2 ) GOME (1995-2003): O3, SO2,N2O, … IMG (1996-1997): O3,CO,CH4,HNO3 MOPITT(2000-): CO, CH4(?) SCHIMACHY(2002-):O3,SO2,N2O,CH4,CO2 AIRS (2002-): O3, CO,CH4, CO2,N2O,HNO3 MIPAS(2002-) ACE-FTS(2003-): O3,N2O,CO,CH4,HNO3 MLS,OMI,TES (AURA, 2004-) GOME-2 (2006-, METOP) IASI (2006-, METOP) GOSAT-FTS(2009.1.23)CO2 、 CH4
Now it is possible to improve the traditional investigation way by top-down method
At present, satellite remote sensing technology has achieved some results in monitoring pollutants. It can also estimate the emissions of some pollutants through further work.
Yearly averagesfor 2004to 2008
Spatial and temporal distribution of some pollutants
SO2
Comparison of SO2 concentration in DU from satellite data with the predictions of
atmospheric model GEOS-Chem for January and July of averaged over 2004-2009.
(a) Jan
(b) Jul
Tropospheric SO2 vertical columns in DU averaged during 2004 - 2008 over China (1) east of China; (2) Sichuan basin; (3) Pearl River Delta region; (4) west of China
Regional NO2 of 19 November 2009 Total column (left)Tropospheric column (right)
NO2 in October 2009
NO2
Difference of Methane (Sept-May)from AIRS and Model
Nov. 30,2008 : Global CO monitoring by MOPITT( http://www.acd.ucar.edu/mopitt/MOPITT/data/plots4/mapsv4.html)
2005 : Global CH4 monitoring by SCIMACHY( http://www.acd.ucar.edu/mopitt/MOPITT/data/plots4/mapsv4.html)
Oct.12-13 : Global O3 monitoring by OMI
HJ-1 is composed of three satellites. HJ-1A,HJ-1B,HJ-1C. HJ-1A,HJ-1B were launched in Sep. 2008.
China Environmental Satellite One(HJ-1)China Environmental Satellite One(HJ-1)
HJ-1A : HSI , CCD HJ-1B : CCD , IRS HJ-1C : Radar
HJ-1 constellation
HJ-System
HJ-1 and its Atmospheric Application
• AOD retrieval - PM quality concentration monitoring• Fog and haze monitoring• Straw burning monitoring• Dust monitoring
From the above achieved results, we can see there have some examples in some countries to monitor the pollution situation. But in China, for lacking of regular RS data and technology measures, the RS way is still not widely adopted in daily environmental monitoring.
What’s the need ? 1. What’s the distribution ( spatial and temporal) conditions of the pollutants?
PMl0, PM2.5, NOX, S02 , CO , BC 、OC
In China now, among them PM,SO2 , NO2 ,CO2 , CH4 are the important pollutants needed to be monitored and controlled.
Density (concentration) , emission quantity
Natural or anthropogenic? Volcanic eruption, Biomass burning , industry emission , soil emission, transportation emission, aircraft, lightning
2. Where are the pollutants come from?
CH4 Emission may caused by Rice Fields, Black Soil ….
CO2 may caused by industrial emission, Black Soil ….
CO may caused by car emission, biomass burning ….
Do they come from somePollution events ?
Example: Biomass burning, as a global problem, is becoming the focus by the public. As we know, Straw burning is an important part of it. Straw burning will produce a large amount of harmful gases.
What’s ration of the pollutants is caused by the pollution events?
Straw Uti l i zaton i n Chi na
50%30%
20% f er t i l i zer andani mal f eed
i ndust ry rawmater i al s and f uel
not eff ect i vel yused
CO2CONOx……
C6H6 PAHsPM…
…
2. Where are the pollutants come from?
3. What’s the amount of emission of the pollutants?
For those pollutants whose lifetime is short, such as SO2 , NO2 , CH4 etc. It may be reasonable to discuss the relationship between the emission inventory and satellite vertical column densities (VCDs).
SO2, is one of the main pollutants in China. Its emission control is one of the two total quantity control indexes in China Environment protection policy.
Because SO2 emissions in China depended strongly on the sulfur content of coal, China have adopted a series measures to desulfurize the sulfur content of coal in recent years. But we often need to know if these desulfurize equipments have been normally operated and have deduced the emission as expected.
So we need satellite to monitor its control effects.
As to NO2 , some researches has reported the
rapid emission increases over China based on Satellite instrument GOME and SCIMARCHY monitoring result.
High emission can lead to high pollutant columns. But how to get the exact emission magnitude through the satellite-derived column still need to be studied.
• GOME/ERS-2(1995-2003) :320×40 km2 standard mode)
• GOME-2/Metop A(2006-): 40×80 km2
• SCIAMACHY/Envisat (2002-): 60×30 km2
• OMI/Aura(2004-): 24×13 km240 km
320 km
30 km60 km
40 km
80 km
13 km24 km
GOME
GOME2
SCIA
OMI
4. Spatial and temporal needs for pollution inventory by top- down way
High spatial and temporal resolution would be need
For environmental monitoring spatial resolution demand: Horizontal spatial resolution. For environmental monitorin
g in city, it needs a higher horizontal spatial resolution of 0.01◦×0.01◦ . For district and country level, 0.1◦×0.1◦ spatial resolution is needed.
Vertical spatial resolution: Total Column - troposphere -near surface
Temporal demand: To environmental monitoring, daily pollutants density and distribution, emission quantity is needed.
5-1. Need to resolve the uncertainties of the emission estimates by top down way Although satellite results can retrieve the emission, there
exist some uncertainties: The retrieval result is very sensitive to several factors
including cloud screening and other chemical/meteorological conditions. For an example, a rough estimate of the GOME NO2 errors is an additive error of 0.5–1.0×1015 moleculecm−2 and a relative error of 40–60% over polluted areas. In addition, the uncertainty for the annual average is approximately 15% (e.g. Richter et al.,2005).
5. Technical Need
5-2. Need to establish a set of technical criteria
There are several different satellite instruments ( with different bands, observing way ,spatial resolution, temporal resolution )may be used as tool to do the emission work, the different methods may lead to the different result.
tropospheric column retrieval : it need to remove the stratospheric part by CTM.
VCD retrieval: air mass factor is needed, different RTM (radiative transfer model)
emission estimation: CTM. Different inventory may be used was as input to some model to simulate some parameters in the estimation.
Priori information : surface spectral reflectance, surface altitude, aerosol loading, cloud screening etc.
Satellite remote sensing
Airplane cruises measurement
Tools for measurementVertical measurement by tower
Insitu measurement
For the different methods may lead to difference in result. So Validation work should be done.
From the view of technology, an uniform technology criteria would be needed. A series of technology criteria may concern data preprocessing 、 column inverse method based on satellite, validation, etc. All these can contribute to get a comparable, relatively objective and scientific results.
In China, from the view of atmospheric monitoring application we need to improve: Satellite and the instruments technology Satellite Remote Sensing Data Monitoring methods and the results
Discussion
Improve the Satellite monitoring result the satellite VCDs may be combined with in situ observation VC
Ds - to improve the algorithm suitable for different region Establishing the good relationship between the VCDs and the e
mission data For some species such as NOx , SO2 ,etc. with short life in th
e atmosphere, it is very useful to find a relationship between emission data and the RS result. There still exits some uncertainty in this field, the accurate estimates is urgently needed in environmental monitoring and management.
Establishing the relationship between the Mode and Satellite results
In order to reduce the uncertainty in the estimation of emissions .
Conclusion
Tough some results in the pollution inventories based on top down way have been achieved, there still exits many uncertainty factors for us to resolve. Hope researches and organizations from diversity fields can join and cooperate together to overcome the difficulties, for the application development of the Satellite RS technology ,for the environment s
afety of the whole world.