Water preprocessor: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
| Line 149: | Line 149: | ||
<math>Prediction = (x_1*ln(GDPPCP_r)) + (x_2*ln(UrbanPercent)) + (x_3*ln(WATSAFE_{r,3}))</math> | <math>Prediction = (x_1*ln(GDPPCP_r)) + (x_2*ln(UrbanPercent)) + (x_3*ln(WATSAFE_{r,3}))</math> | ||
<math>WatWithdMun_r = Prediction * POPURBAN_r</math> | |||
= sss = | = sss = | ||
Revision as of 23:50, 10 January 2017
Series pulled into water preprocessor
| Table | Definition | Source | Notes | Last IFs Update |
| SeriesWaterFossilWithdrawal | Water withdrawal from fossil water aquifers | UNESCO Non-Renewable Groundwater Report 2006 | SGH | 2014/08/29 |
| SeriesWaterResFossil | Water withdrawal from fossil water aquifers | UNESCO Non-Renewable Groundwater Report 2006; Aquastat country profiles | SGH | 2014/08/29 |
| SeriesWaterResGroundAfrica | Water withdrawal from fossil water aquifers for African countries | Quantitative maps of groundwater resources in Africa | SGH | 2014/08/29 |
| SeriesWasterwaterTreated | Wastewater: treated volume (10^9 m3/yr) |
AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWastewaterProduced | Wastewater: produced volume (10^9 m3/yr) |
AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWastewaterTreatedReused | Treated wastewater reused (10^9 m3/yr) |
AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterDesalinated | Desalinated Water Produced | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterGroundWithD | Ground Water Withdrawal | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterResExploitGround | Exploitable: regular renewable groundwater (10^9 m3/yr) | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterResExploitSurface | Exploitable: total renewable surface water (10^9 m3/yr) | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterResOverlap | Overlap between surface and groundwater | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterResTotalExploit | Water resources: total exploitable | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterResTotalRenew | Water resources: total renewable (actual) | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterResTotalRenewGround | Total renewable groundwater (actual) (10^9 m3/yr) | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterResTotalRenewSurface | Total renewable suface water (actual) | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterSurfaceWithD | Surface Water Withdrawal | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterTotalWithdSources | Total water withdrawal (summed by sources) | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterWithdAgriculture | Agricultural water withdrawal | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterWithdIndustrial | Industrial water withdrawal | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesWaterWithdMunicipal | Municipal water withdrawal | AQU BATCH PULL | KK,JM | 2016/05/21 |
| SeriesLandIrActual%Equip | Area equipped for irrigation: actually irrigated, % | AQU BATCH PULL | KK;JM | 2016/06/06 |
Initializations
Municipal water demand
Use SeriesWaterWithdMunicipal to initialize municipal water demand (WatWithdMun).
If null, then calculate urban population:
Then estimate municipal water demand using the equation: "MunDemandPC (Linear) versus GDP2011PCPPP(MOSTRECENT) (Log) AND Connections" which is in AnalFunc.
Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle Prediction = (x_1*ln(GDPPCP_r)) + (x_2*ln(UrbanPercent)) + (x_3*ln(WATSAFE_{r,3}))}
