CANARINA:
DESCAR:
INPUT DATA:
ALGORITHMS:
POLLUTANTS:
1. Firstly you can can navigate to Google maps web.
http://maps.google.com/
2. Using the screen arrows move to the map area that you want to watch. For example, we can watch Garachico coast in Tenerife North.
3. For the image capture, it is possible to use in the keyboard Ctrl+Alt+PrtSc). In the keyboard you can push at the same time (Ctrl+Alt+PrtSc). In that way, the screen image is copied by the computer memory.
4. Open the windows PAINT program (Windows >> Start>> Programs>> Accessories >> PAINT).
5. To paste the image that has been previously copied in the computer memory, you can use the commands (Edit >> Paste in the PAINT program) or (Ctrl+V). You can watch now the copied image from the Google maps web page.
6. It is obvious that you don't want to watch the navigator bars that appears in the screen. Use the arrows of the PAINT program to center the image, that you are interested for, in your computer screen. In the toolbar of PAINT, you can use the icon SELECT (it is on top of the toolbar and at the right in the last picture). Drag the mouse arrow selecting the screen area that you are interested for. For our case, it is the rectangle where the picture of the terrain appears.
7. Copy now the selected area by the rectangle in the last image using (Ctrl+C) or the command (PAINT Edit>>Copy) in the PAINT program. Then, you can use the command (File>>New) in the PAINT to have a new and clear screen
8. Use (Ctlr+V) command in the keyboard, or (Edit>>Copy) in the PAINT program to paste the selected retangle. The copy of the image appears now in the PAINT screen. The scale of the map imported from Google maps appears now in our screen (marked by a yellow arrow). This will be of great interest in a near future. It is important to have this scale in the image that you have selected.
9. Save the file using BMP format using the commands of the PAINT program (File>> Save as. . .). Then, you can open the previously saved BMP file using the Canarina program.
10. To work in the correct scale, we need to check the scale bar width in the Google map. The Google scale bar is between the red and yellow arrows (in the next picture). The Google bar width is in meters. When we put the mouse pointer in the point of the red arrow we can see the X-Coordinate value in the box marked by a blue arrow. If we put now the mouse pointer in the point of the yellow arrow, we will obtain a new value for the X-coordinate. The difference between both values in meters must be the same that the original Google bar width in meters to be in the correct scale.
When we put the mouse pointer in the point of red arrow, it is found 7 m in the X-Coordinate box (marked with a blue arrow). If we do the same with the yellow arrow, we obtain 75 m in the box marked with a blue arrow. Then, and in our actual scale, the bar width have 75 m -7m = 68m. However, the correct value in the original Google scale is 100 m. The correcting ratio is
P = 100/68 = (real value)/ (our value).
P=100/68=1.47
11. To work in the correct scale, we have two methods:
METHOD A:
We go now to Canarina program>> GIS >> Scale calculation in the program and we get
We replace the 300m value that appears in the last picture by 100m (the original Google bar width in meters) and 'click' ACCEPT. Then we click firstly in the left extreme of the original Google scale bar and secondly, we click again in the right extreme of the original Google scale bar (both points in the screen were market with red and yellow arrows in the last step 10). The imported Google map is now in the correct sale and we can check it. When we put the mouse pointer in the red arrow, we get an X-Coordinate value equal to 10 m (in the box market with a blue arrow). We can also get 110 m for the position market with the point of the yellow arrow. The difference is now 110 m -10m = 100 m. Such a value coincides with the original value of the Google map bar. So, the program scale is correct now.
METHOD B:
We go now to Canarina program>> Tools >> Scale in the program and we get
Now we multiply (our actual X-Axis width) by P to get the correct X-axis width,
(correct X-Axis width)=Px(X-Axis width)
(correct X-Axis width)=1.47x1000=1470m
And we introduce the new X-Axis width and click ACCEPT in the last window. The imported Google map is now in the correct scale and we can check it. When we put the mouse pointer in the red arrow, we get an X-Coordinate value equal to 10 m (in the box market with a blue arrow). We can also get 110 m for the position market with the point of the yellow arrow. The difference is now 110 m -10m = 100 m. Such a value coincides with the original value of the Google map bar. So, the program scale is correct now.
12. Now we introduce a pollutant source and we make the simulation. The result can be exported to a BMP file using the Canarina software.
13. We can repeat the 6-7-8 steps 'in order to eliminate not necessary parts in the picture. At the end we have a clean image with both the Google map and the simulation process results.
Canarina Algoritmos Numéricos, S.L.
Environmental software solutions
Software for environmental impact
Canary Islands, Spain
e-mail: contact us
European network on pollution · European Union
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funded by the European Commission through the
6th Framework Programme for Research and Development
pollution in water
CANARINA: Home - Air pollution · DISPER - Noise pollution · CUSTIC - Water pollution · DESCAR - Contact us
DESCAR: DESCAR: water pollution - Data I - Algorithms I - Pollutants I
SOLUTIONS: DESCAR: water pollution - Advantages - Price
INPUT DATA: Data I - Data II - Data III - Import - Commands - Graphs I - Graphs II
ALGORITHMS: Algorithms I - Algorithms II - Algorithms III - Algorithms IV - Algorithms V - Algorithms VI
POLLUTANTS: Pollutants I - Pollutants II - The sea I - The sea II - Pycnocline
DESCAR - Solutions - Advantages - Price - Data I - Data II - Average - Import - Graphs I - Graphs II - Commands - Algorithms I - Algorithms II - Algorithms III - Algorithms IV - Algorithms V - Algorithms VI - Algorithms VII - Pollutants I - Pollutants II - The sea I - The sea II - Pycnocline - Google maps - GIS
Leicestershire
- water pollution control federation - fresh water pollution -West Sussex
- water pollution ppt - cause water pollution - water pollution picturesCanterbury
- water pollution effect - water pollution - control of water pollution - water pollution - water pollution solution -Cardiff -
water pollution kids - facts about water pollution - articles on water pollution -Carlisle
- source of water pollution - surface water pollution - air water pollution -Chester
- point source water pollution - pollution in the water - water pollution control authority -Chichester
- water pollution sources - water air soil pollution - water pollution images -City of London
- water pollution - information on water pollution - how to stop water pollution -Coventry
- river water pollution - solutions to water pollution - water pollution picturesDerby
- ways to prevent water pollution - definition of water pollution -Derry
- northern outfall - outfall construction - effluent outfall -Dundee
- outfall pipes - storm water outfall - wastewater outfall -Durham
- outfall diffuser - outfall definition - drainage outfall -Edinburgh
- sea outfall - northern outfall sewer - outfall structures -Ely
- marine outfall - outfall structure - outfall design -Exeter
- sewer outfall - stormwater outfall - outfall pipe -Lancaster
- water prevention and control of pollution act - information about water pollution - solution to water pollution -Leeds
- history of water pollution - water pollution picture - water pollution definition -Winchester
- water pollution treatment - global water pollution - water pollution health -Wolverhampton
- causes and effects of water pollution - waste water pollution - ocean water pollution -Worcester
- water pollution pics - thermal water pollution - pictures on water pollution -York
- define water pollution - chemical water pollution - images of water pollution - consequences of water pollution -Warwickshire - surface water outfall - definition of outfall - deep ocean outfall -
Worcestershire
- ground water pollution - water pollution effects -East Sussex - sewerage outfall - outfall protection - combined sewer outfall - outfall tunnel - storm sewer outfall -
Surrey
- waste water - diffuser - water pollution - water pollution control -Hertfordshire
- wwtp outfall - southern outfall - north outfall sewer - waste water outfall - lake outfall -Buckinghamshire
- outfall location - southern outfall sewer - brightwater marine outfall - outfall mapping - outfall sampling -Bedfordshire
- water pollution solutions - how to prevent water pollution - water pollution act - what causes water pollution -Aberdeen
- water pollution problems - water pollution issues - preventing water pollutionArmagh
- water pollution statistics - water pollution articles - cause of water pollution -Bangor
- reduce water pollution - industrial water pollutionBath
- outfall pictures - sea outfall design - outfall ditch - outfall canals - water pollution picturesBelfast
- outfall picture - stormwater outfall definition - free outfall -Cambridge - municipal discharge - sewage oil - septic tank discharge -
Nottingham - sewage epa - septic sewage - sewage industry -
Oxford - environmental discharge - domestic sewage - surface discharge
Peterborough - sewage treatment plant - sewage drainage - sewage cost -
Plymouth - sewage sump - wastewater discharge - sewage use -
Portsmouth - sewage chemical - sewage regulations - sewage standards -
Preston - sewage irrigation - sewage activated sludge - discharge management -
Ripon - sewage treatment systems - sewage water treatment - sewage tank -
Salford - sewage pipes - sewage plants - sewage waste -
Salisbury - domestic sewage - water pollution pictures
Sheffield - sewage pipe - sewage treatment works - sewage spill -
St Albans - sewage works - sewage ejector - sewage pollution -
St David's - sewage effluent - sewage treatment process - sewage pumping -
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