Water preprocessor: Difference between revisions

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Then estimate municipal water demand using the equation: "MunDemandPC (Linear) versus GDP2011PCPPP(MOSTRECENT) (Log) AND Connections" which is in AnalFunc.
Then estimate municipal water demand using the equation: "MunDemandPC (Linear) versus GDP2011PCPPP(MOSTRECENT) (Log) AND Connections" which is in AnalFunc.


<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})) + b</math>


Multiply municipal water demand per capita by the size of the urban population.
Multiply municipal water demand per capita by the size of the urban population.

Revision as of 00:00, 11 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.

Multiply municipal water demand per capita by the size of the urban population.

Industrial water demand

Use SeriesWaterWithdIndustrial to initialize industrial water demand (WatWithdInd).

If null, then estimate using manufacturing value added. The equation is, "WaterWithdIndustrial(MOSTRECENT minus elec) (Linear) versus Man (Linear)" and is in TablFunc.

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