Abstract
Equitable distribution of water is a growing source of worry, and concerns water systems’ managers as water-stressed areas steadily increase and situations of water scarcity are becoming more frequent. The problem goes beyond just the water sector and globally affects many countries’ economies since water resources have multiple uses (i.e., power generation, irrigation, etc.). One of the various strategies to overcome periods of extreme events (e.g., water scarcity) is the adoption of intermittent operation. Intermittent operation can minimize water losses, and manages to supply the same water demand (in terms of volume) during a reduced period of time. However, despite minimizing water losses, the energy consumption necessary to cope with the increased flows and head loss, due to the reduced number of operating hours, increases. This paper explores a strategy based on rehabilitation of the system’s main pipes. It also considers optimal selection and scheduling of pumps aiming at improving the system’s hydraulic parameters (e.g., velocity and head losses) and at reducing the operating costs. Both selection and scheduling of pumps and resizing of main pipes are optimized using Particle Swarm Optimization. The obtained results show that this strategy can significantly reduce the energy consumed and can be economically feasible.
Highlights
Water is an essential resource for human survival and for the economic, social and health development of societies
Considering the increasingly worrisome problems due to water scarcity, and the importance of reducing the overload on hydropower reservoirs to achieve equity in the multiple water uses, this paper evaluates a joint strategy for reducing the operating cost through the rehabilitation of main pipes in Intermittent Water Supply (IWS) operation and pump selection and scheduling
The management of water resources becomes a fundamental strategy to minimize impacts in periods of water scarcity and to reduce the conflicts associated with multiple uses of water
Summary
Water is an essential resource for human survival and for the economic, social and health development of societies. Considering the increasingly worrisome problems due to water scarcity, and the importance of reducing the overload on hydropower reservoirs to achieve equity in the multiple water uses, this paper evaluates a joint strategy for reducing the operating cost through the rehabilitation of main pipes in IWS operation and pump selection and scheduling. This procedure aims to achieve energy reduction of pump stations through a reduction of head losses, which can be significantly higher than those of CWS due to the larger flow necessary to meet the consumers’ demand in a shorter period. AccorTdThihneeglelteaoakktahagegeeheyexdxpproaonuneleincnttc(h(ββa))roaofcftEeEqrquisuataitcitosiononf(6(e6)a)cisihsasanynsetmeemmppiraiirncidcaalclvavanarirvaiaabrblyelebtoteotbwbeeededenete0ter.3mr6mianinneeddd 2a.9c5co[r2d6i]n, gditfofetrheenthyfrdormautlhicecchoanrsatcatnertisvtaiclus eofofea0c.5h usysestdeminatnhde ocarinfivceareyqbueattwioenen[207.]3. 6Tahned lSe2loea.,9akt5kahag[eg2ee6Ec]pc,ooadeenfiffiefffitceci2rieee.n2nntttc(a(fααrn)o)mmccaaonntdhbbeeeel ctcchoaanellisiblbteraraanakttteaedvgdaetoltuoflaeoacwhochfiebi0vey.ve5aetushtssehoeecldeilaaeitknaianktgghaegeEveqoovurliuoafimltcuioeemneoeq(f6uot)haftetotihoseyenassc[ty2ehm7snt]e.so.mTdShseo.e, oEutn(tfqphh6eut)eetthaowbEetnyitoptonhhratneekhntn(enwem6ottt)hdooi2bmred.nky2eoeolctmfd.hsatTeteonhehdopetmiefems(ltody∆.hedastTeties)lehtslyuemyetpnlhse,dtte(agiea∆lklmiievrtlaay)e,egkaungelcaeniihvvganteoiieknlnElafurgqlgeiomnauetwhcaeEvhetq(boiiDotnuyloungLatam)at(tsi7lhcosea)eoon.n(pctD(oieb7atrLe)taa.i)lneticosgnatpigEnmeqrtbaaiumettaieneetdisgo(tbtnitym)im(tm6aoe)tuebt(dlotet)iebpstoaiylmcybhmiuennlugsaoiltEmtdeiqpdeuulloyuaafitptneitohdgtnoe nt
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