Literature DB >> 31909115

Rainwater harvesting system installations required to offset new water demand created by growing populations in Broward and Palm Beach Counties: A dataset for decision making based on numbers of installations, costs, and water and energy savings.

Kurt Wurthmann1.   

Abstract

This article presents yearly data for the period 2020-2060 on estimates for population growth and associated numbers of new and existing single-family detached homes to be fit or retrofit with rainwater harvesting (RWH) system equipment for lawn irrigation in order to continuously offset new water demand created by new residents in Broward and Palm Beach Counties, Florida. Annual data on financing costs for capital equipment and its replacement and savings in amounts of groundwater and associated water supply energy amounts and costs are also provided. The methods for determining and using the data presented in this article, along with related data, for the purpose of analyzing the feasibility of a widely-deployed residential rainwater harvesting (RWH) system in a heavily populated region in Southeast Florida are discussed in detail in Wurthmann [1]. The data presented here can be used by policy makers as a decision support tool for assessing broad outcomes related to population and single-family housing growth in Broward and Palm Beach Counties. They can also be used for more circumscribed outcomes related to developing implementation plans and assessing capital and financing costs and savings in water and energy amounts and costs for countywide RWH system installations. The data were derived from various expert projections, data from the U.S. Census Bureau, National Association of Home Builders (NAHB), Florida Department of Revenue and Property Tax, American Water Resources Association (AWRA), South Florida Water Management District (SFWMD), Electric Power Research Institute (EPRI), Energy Information Administration (EIA), and vendors of RWH system equipment, and customized calculations developed in Wurthmann [1].
© 2019 The Author.

Entities:  

Keywords:  Economic analysis; Energy costs; Energy intensity of water; Lawn irrigation; Rainwater harvesting; Southeast Florida; Water supply

Year:  2019        PMID: 31909115      PMCID: PMC6940700          DOI: 10.1016/j.dib.2019.105016

Source DB:  PubMed          Journal:  Data Brief        ISSN: 2352-3409


Specifications Table These data are useful because they are the first to provide annual projections for Broward and Palm Beach Counties, Florida, during the period 2020–2060, for population growth, numbers of detached homes that must be fit with RWH system equipment each year so 100% of water demand by new residents is continuously offset, and costs and savings in groundwater and energy for its supply. These data are useful because they summarize a unique integration of data using new analytic approaches, including techniques for RWH system sizing based on a nonparametric bootstrapping approach that synthetically generates daily precipitation, water supply, and irrigation demand using historical daily rainfall data. These data can benefit researchers, analysts, and policy makers who have interests in outcomes related to population and single-family housing growth in Broward and Palm Beach Counties and developing implementation plans and assessing costs and savings in water and energy for countywide RWH system installations. The methods used to derive these data can be modified for use in future studies of sustainable water management, which consider alternative contextual conditions, including changes in focal locations, population projections, percentages of populations residing in detached houses, per capita daily water usage, use of harvested rainwater, costs and energy usage, and climate.

Data

All raw and analysed data are included with this article. Please see data in the article and Table 1, Table 2, Table 3. Note, there can be increasing levels of uncertainty associated with population projections as the dates for the projections extend longer into the future [5]. To account for this uncertainty it is common practice to provide high and low series of population projections, rather than provide just one series of medium projections [2,3,5]. Accordingly, the present and related research articles [1,2,5] developed high and low projections for population growth in Broward and Palm Beach Counties.
Table 1

High projections for population growth and associated numbers of new and existing single-family homes to be fit or retrofit with RWH system equipment for lawn irrigation to continuously offset 100% of water demand created by new residents in such homes in Broward and Palm Beach Counties, in Florida.

Year[A] High projections for Broward population[B] High projections for Palm Beach population[0.181* A] Broward County Number detached homes[0.221*B] Palm Beach County Number detached homesNumber of new detached homes created and to be fit with RWH equipment each year by the growing population in BrowardNumber of new detached homes created and to be fit with RWH equipment each year by the growing population in Palm BeachBroward number of existing homes to be retrofit with RWH equipment each year to offset 100% of water demand created by new Broward & Palm Beach homes until all existing Broward homes retrofitPalm Beach number of existing homes to be retrofit with RWH equipment each year to offset 100% of water demand created by new Broward & Palm Beach homesNumber of new and existing detached homes that must be fit or retrofit with RWH equipment each year in BrowardNumber of new and existing detached homes that must be fit or retrofit with RWH equipment each year in Palm Beach
202019467001482900352353327721000000
20211966097149863735586433119935113478161610196710
20221985687151454135940933471335463515163290198740
20232005472153061336299033826635813552164980200790
20242025454154685636660734185536173590166700202870
20252045636156327237026034548336533628168430204960
20262066018157986237394934914936893666170180207070
20272086604159662737767535285537263705171950209210
20282107395161357138143835659937633745173740211370
20292128393163069538523936038438013784175540213550
20302149600164800038907836420838383824177370215750
20312168818166130639255636714934782941144550179330
20322188208167471939606637011335102964145760180860
20332207771168824139960737310135412988146990182400
20342227509170187240317937611435733012148220183950
20352247424171561340678437915036053037149470185510
20362267517172946541042138221236373061150720187090
20372287789174342941409038529836693086151990188680
20382308243175750541779238840937023111153260190280
20392328879177169542152739154537353136154550191900
20402349700178600042529639470637693161155850193540
20412370037180892042897739977136815065213160249970
20422390549183213443268940490237135130115231008152366138
2043241124018556454364344100983745519608139374513335
2044243210918794594402124153603777526308229377713492
2045245315919035784440224206913810533008320381013650
2046247439119280064478654260893843539908411384313810
2047249580719527484517414315573876546808504387613972
2048251740819778084556514370963910553808598391014136
2049253919620031894595954427053944560908693394414302
2050256117320288964635724483863978568108789397814470
2051257707620580474664514548282878644208419287814862
2052259307820876184693474613642896653508518289615053
2053260917921176134722614679922914662908618291415247
2054262538121480394751944747172932672408719293215443
2055264168321789034781454815372951682108822295115643
2056265808622102094811144884562969691908926296915845
2057267459122419664841014954752987701809031298716049
2058269119822741794871075025943006711909138300616257
2059270790923068554901315098153025722109246302516467
2060272472323400004931755171403043732509355304316680
Table 2

Expenses for RWH system capital equipment and its installation and replacement, the costs for financing these expenses,and savings in amounts of groundwater and associated water supply energy amounts and costs in Broward and Palm Beach Counties, in Florida.

YearTotal annual capital expenses for new installations and replacements of RWH equipment ($)Total yearly payments for financing total yearly capital expenses ($)Present values of total yearly payments for financing total yearly capital expenses ($)Total amount of groundwater saved, each year, across both counties, by the RWH system (MGY)Total amount of groundwater saved, each year, across both counties, by the RWH system (Mm³Y)total annual water supply energy savings (kwh)total annual water supply energy cost savings ($)Present values of total annual energy cost savings ($)
202000000.00000
2021983567838575193808980410233.872147573162786153572
202299371541172388561534252120567.784317303327252291253
20231003967782599190521823305310011.736509418493414414280
20241014326033483526127592790415415.738724150661291523804
20251024791254376985932707384522019.7610961733830899620896
20261035364555279663837219547629623.83132224011002258706552
20271046047056191655341178044738427.95155063951175385781698
20281056839887113056544628196848332.11178139541350298847193
20291067744178043964547612102959336.31201453221527015903838
203010787610889844776501688541071540.56225007451705556952374
20318966718797662370514473181164744.09244585851853961976643
203290429590105546434524533441258747.65264330712003627995741
203391198493113497534532120731353551.242842434721545651010144
203491973950121516242537467511449254.863043255323067881020294
203592756017129603134540788601545658.513245783724603041026599
203693544753137758792542282371642962.193450034126151261029435
203794340212145983802542131901741065.903656021427712641029149
203895142453154278754540506041839969.653863760429287301026063
203995951534162644246537560391939773.424073266030875361020471
204096767513171080879533438272040377.234284553232476911012646
2041223341345181977603535296952170282.154557451034545481016174
2042236931467193970704538278592301687.134833425736637371016706
2043252475301207229603542521422434592.165112513638752851014539
2044255236242220638905544930762568997.245394747440892191009949
20452580280592342003705456836527048102.395680163743055641003191
20462608511042479157785449437428423107.59596879954524350994498
20472637057332617869305428622029813112.85626069224745605984086
20482665923082758156515395785531218118.17655587994969357972156
20492695111932900037855352215332640123.56685440085195636958890
20502724627583043531995299097534078129.00715629395424471944455
20512526772563185651595232586935491134.35745318765649516927960
20522554418303329516785159332536922139.77775369315877299910731
20532582395613475150805080191738371145.25805785836107857892884
20542610708723622577204995951739837150.80836573186341225874528
20552639361963771819884907334541321156.42867736276577441855759
20562668359693922903064815001542823162.10899280076816543836668
20572697706344075851304719557944343167.86931209667058569817334
20582727406404230689494621556545882173.68963530147303558797832
20592757464414387442884521502047440179.58996246737551550778229
20602787884994546137074419853949017185.551029364677802584758584
Table 3

Low projections for population growth and associated amounts of total water demand in Broward and Palm Beach Counties, in Florida.

YearLow projections for Broward populationLow projections for Palm Beach populationBroward total water demand (MGD)Palm Beach total water demand (MGD)Total water demand Broward + Palm Beach (MGD)Broward total water demand (Mm³D)Palm Beach total water demand (Mm³D)Total water demand Broward + Palm Beach (Mm³D)
2020194670014829002552515060.970.951.92
2021194435114881542552525070.960.961.92
2022194200514934262542535080.960.961.92
2023193966214987182542545080.960.961.92
2024193732215040272542555090.960.971.93
2025193498515093562532565090.960.971.93
2026193265015147042532575100.960.971.93
2027193031815200702532585110.960.981.93
2028192798915254562532595110.960.981.93
2029192566315308612522605120.950.981.94
2030192334015362842522605120.950.991.94
2031191906615387252512615120.950.991.94
2032191480115411692512615120.950.991.94
2033191054715436182502625120.950.991.94
2034190630115460702502625120.950.991.94
2035190206515485262492635120.940.991.94
2036189783915509862492635120.941.001.94
2037189362115534502482635110.941.001.94
2038188941415559182472645110.941.001.94
2039188521515583892472645110.931.001.93
2040188102615608652462655110.931.001.93
2041187472515586662462645100.931.001.93
2042186844415564702452645090.931.001.93
2043186218515542772442645070.921.001.92
2044185594615520872432635060.921.001.92
2045184972915499002422635050.920.991.91
2046184353215477172412625040.910.991.91
2047183735615455362412625030.910.991.90
2048183120115433592402625020.910.991.90
2049182506615411842392615000.900.991.89
2050181895215390132382614990.900.991.89
2051181285915390132372614980.900.991.89
2052180678615390132372614980.900.991.88
2053180073315390132362614970.890.991.88
2054179470015390132352614960.890.991.88
2055178868815390132342614950.890.991.87
2056178269615390132332614940.880.991.87
2057177672315390132332614940.880.991.87
2058177077115390132322614930.880.991.87
2059176483915390132312614920.870.991.86
2060175892715390132302614910.870.991.86
High projections for population growth and associated numbers of new and existing single-family homes to be fit or retrofit with RWH system equipment for lawn irrigation to continuously offset 100% of water demand created by new residents in such homes in Broward and Palm Beach Counties, in Florida. Expenses for RWH system capital equipment and its installation and replacement, the costs for financing these expenses,and savings in amounts of groundwater and associated water supply energy amounts and costs in Broward and Palm Beach Counties, in Florida. Low projections for population growth and associated amounts of total water demand in Broward and Palm Beach Counties, in Florida. Table 1 presents annual data on high projections for population growth and associated numbers of new and existing single-family detached homes to be fit or retrofit with RWH system equipment for lawn irrigation in order to continuously offset 100% of water demand created by new residents in such homes in Broward and Palm Beach Counties, in Florida. Column 1 shows the years of data, which extend from 2020 to 2060. Columns 2–5 show the high population projections for numbers of people and single-family detached homes in Broward and Palm Beach Counties, respectively. Columns 6 and 7 show the numbers of new single-family detached homes that are created and must be fit with RWH equipment each year due to the growing populations in Broward and Palm Beach Counties, respectively. Column 8 shows the numbers of existing single-family detached homes that must be retrofit with RWH equipment each year in Broward County, in order to offset 100% of the water demand created that year by newly built Broward and Palm Beach County single-family detached homes. The process of retrofitting Broward County homes with RWH system equipment continues until all existing Broward single-family detached homes are so retrofit. At that point, the process of fitting new and retrofitting existing Palm Beach County single-family detached homes with RWH system equipment begins. This sequence is chosen because it is more expensive to fit Palm Beach versus Broward County homes with RWH system equipment. Column 9 shows the numbers of existing single-family detached homes that must be retrofit with RWH equipment each year in Palm Beach County, in order to offset 100% of the water demand created that year by newly built Broward and Palm Beach County single-family detached homes. The process of retrofitting existing Palm Beach County single-family detached homes with RWH system equipment continues through 2060. Columns 10 and 11 show the total numbers of new and existing single-family detached homes that must be fit or retrofit with RWH equipment each year in Broward (sum of columns 6 and 8) and Palm Beach (sum of columns 7 and 9) Counties, respectively. Table 2 presents annual data on expenses for RWH system capital equipment and its installation and replacement, the costs for financing of these expenses, and savings in amounts of groundwater and associated water supply energy amounts and costs in Broward and Palm Beach Counties, in Florida. Column 1 shows the years of data, which extend from 2020 to 2060. Column 2 shows the total expenses required in each year for RWH system capital equipment and its installation and replacement. Column 3 shows the total dollar amount spent each year for financing the expenses over a 20-year period, at an interest rate of six percent, structured with level debt service. Column 4 shows the present values of the annual financing costs, using a discount rate of six percent. Columns 5 and 6 show the total amount of groundwater saved, each year, across both counties, by the RWH system in millions of gallons per year (MGY) and millions of cubic meters per year (Mm³Y), respectively. Column 7 shows the total annual water supply energy savings in kilowatt hours (kwh). Column 8 shows the total dollar amount of water supply energy saved each year. Column 9 shows the present values of the annual dollar amounts of water supply energy savings, using a discount rate of six percent. Table 3 presents annual data on low projections for population growth and associated amounts of total water demand in Broward and Palm Beach Counties, in Florida. Column 1 shows the years of data, which extend from 2020 to 2060. Columns 2–5 show the low population projections for numbers of people and the corresponding amounts of total water demand in millions of gallons per day in Broward and Palm Beach Counties, respectively. Column 6 shows the combined amount of total water demand in millions of gallons per day in both Broward and Palm Beach Counties, together. Columns 7 and 8 show the amounts of total water demand in millions of cubic meters per day in Broward and Palm Beach Counties, respectively. Column 9 shows the combined amount of total water demand in millions of cubic meters per day in both Broward and Palm Beach Counties, together. Note, some water management projects are designed to meet the needs of just one county, while others are designed to meet the needs of multiple counties [1,2,6]. Thus, it can be useful to consider water demands at the level of the individual county, as presented in columns 4, 5, 7, and 8, as well as across both counties, as presented in columns 6 and 9. Broward and Palm Beach Counties are adjacent and there are significant links between the water supply systems in these counties. For example, recent reservoir-based water management systems have been designed to simultaneously meet the growing water supply needs of both Broward and Palm Beach Counties [1,2,6].

Experimental design, materials, and methods

The data presented Table 1, Table 2, Table 3 in the present article were acquired and analysed as described in Wurthmann [1]. This section of the present article provides additional details concerning how the data shown in Table 1, Table 2, Table 3 were acquired and analysed. The data shown in Table 1, Table 2, Table 3 are based on assumptions that the following items remain constant: 1. rates of water usage; 2. sizes of homes and lots; 3. numbers of people residing in homes; 4. breakdowns of the percentages of homes based on numbers of bedrooms; and 5. yearly ratios of numbers of single-family detached homes to numbers of people residing in Broward and Palm Beach Counties, Florida. It is also assumed that the energy intensity of water and costs will remain constant through 2060. These assumptions may not hold if there are changes in individual and societal perceptions and norms, or technological, political, legal, economic, and environmental factors. Accordingly, analysts may wish to consider the sensitivity of some of the data in the present article to potential changes in the underlying assumptions. For example, given the long-term nature of the data and particular susceptibility of the region to the effects of climate change, analysts might wish to consider how the data provided herein could be affected by outcomes including: 1. more heavy and sporadic rainfall events; 2. more intense drought-flood cycles; 3. higher average temperatures; 4. significant changes in perceptions, behaviors, regulations, and property values; and 5. potentially large-scale climate migration [1]. In Table 1, turn-of-decade values for populations shown in columns 2 and 3 were collected from secondary sources as raw data [2,3]. These turn-of-decade values were then used as the endpoints for calculating compound annual growth rates (CAGRs) to fill in population levels for each year, during each decade. The average ratios of numbers of detached houses to numbers of people, for the years 2010 through 2017, for Broward and Palm Beach Counties, were calculated from Census data as 0.181 and 0.221, respectively [1,4]. These ratios were multiplied by the population data in columns 2 and 3 to determine the numbers of detached homes in Broward and Palm Beach Counties shown in columns 4 and 5, respectively. Numbers of new detached homes created and to be fit with RWH equipment each year are shown in columns 6 and 7. These data were calculated as the year-to-year changes in the numbers of detached homes in Broward and Palm Beach Counties shown in columns 4 and 5, respectively. The data shown in columns 8 and 9 in Table 1 were determined based on the following considerations. As per Wurthmann [1], meeting 100% of the outdoor irrigation needs of 142.43 gallons per day at single-family detached homes in Broward County only meets 39.2% of the total water needs at such homes. Note total household water needs were the product of the average number of residents per household, based on 2017 US census data [4], and per capita water usage data [1,2,6,7]. As per Wurthmann [1], per capita water usage was determined “by dividing actual 2010 water supply pumpage quantities by the corresponding figures for the populations using that water in Broward and Palm Beach Counties” [1]. The outdoor irrigation needs were calculated assuming an average area of yard in Broward County requiring irrigation of 3198.78 square feet and an average required amount of irrigation of 0.5 inches, once per week, year round [1,[9], [10], [11]]. Note, the average area of yard requiring irrigation was calculated as 50% of the difference between the average lot size and home square footage for the county of interest [1]. The average home square footage (and rooftop area) values for detached homes in Broward and Palm Beach Counties were determined to be 2223.45 and 2284.80 square feet, respectively [1]. These values were determined by multiplying the percentages of homes in the counties of interest, based on numbers of bedrooms [4], by data on the average square footage of homes for sizes corresponding to number of bedrooms [8]. Thus, for each newly created single-family detached household in Broward County that is equipped for RWH, 1.55 existing single-family detached homes in Broward County must also be so equipped in order to offset the additional total water demand. Similarly, meeting 100% of the outdoor irrigation needs of 233.04 gallons per day at single-family detached homes in Palm Beach County only meets 53.1% of the total water needs at such homes [1]. The outdoor irrigation needs were calculated assuming an average area of yard in Palm Beach county requiring irrigation of 5233.60 square feet and an average required amount of irrigation of 0.5 inches, once per week, year round [1,[9], [10], [11]]. Thus, for each newly created single-family detached household in Palm Beach County that is equipped for RWH, 0.88 existing single-family detached homes in Palm Beach County must also be so equipped in order to offset the additional total water demand. Further, since single-family detached homes in Palm Beach versus Broward County use more water in total and for outdoor irrigation, appropriate conversion factors were applied to determine equivalence between numbers of single-family detached households and water usage across the two counties. The cost figures shown in Table 2 are based on the assumptions that the cost per household for installed RWH system equipment is $5000 and $10000 in Broward and Palm Beach Counties, respectively [1], the energy intensity of water is 2100 kwh/MG [14], and the cost of energy is $0.0758 per kwh [15]. The cost per household for installed RWH system equipment is based on the assumption that each household in Broward and Palm Beach Counties, respectively, is to be equipped with four and eight 2000-gallon, above-ground, plastic cisterns [1]. These equipment requirements were determined using a nonparametric bootstrapping method for synthetically generating daily precipitation, water supply, and irrigation demand for rainwater harvesting system storage sizing [1,16]. The cost components, on a per cistern basis, included $800 for the cistern, $250 for all associated equipment (conveyance, filtration, disinfection, etc.), and $200 for installation labor [1,13]. Note, it is assumed that the costs of including RWH system equipment on new and existing homes is the same. The data in column 2 in Table 2 were determined by multiplying the cost per household for installed RWH system equipment by the number of new and existing detached homes that must be fit or retrofit with RWH equipment each year from Table 1. The data in column 3 in Table 2 were determined by summing all required, annual level payment amounts for each year, in the period 2020 through 2060. It is assumed all annual total capital outlays required for the installation and replacement of RWH equipment are financed using 20-year schedules of level payments. The values in these schedules of level payments were determined by multiplying each annual capital outlay by the inverse of the annuity factor with an interest rate of six percent. Note, “it is assumed that all installed RWH system equipment must be replaced, at its initial installation cost, every 20 years” [1]. The data in column 4 in Table 2 were determined by multiplying the data in column 3 by a present value factor corresponding to a six percent interest rate. The data in columns 5 and 6 in Table 2 were determined by multiplying the total number of new houses fit and existing houses retrofit with RWH system equipment in Broward and Palm Beach Counties by the amounts of water used for landscape irrigation by households in those counties [1]. The data in column 7 in Table 2 were determined by multiplying the data in column 5 by a groundwater energy intensity value of 2100 kwh/MG [14]. The data in column 8 in Table 2 were determined by multiplying the data in column 7 by a cost of energy for Florida industrial customers of $0.0758 per kwh [15]. The data in column 9 in Table 2 were determined by multiplying the data in column 8 by a present value factor corresponding to a six percent interest rate. In Table 3, the values for populations shown in columns 2 and 3 were determined as follows. The 2020 population projections for both Broward and Palm Beach Counties were the same as those shown in Table 1 (i.e. The populations in the two counties in the present time are assumed to be the same). From this common starting population level, the rate of change projections for low population growth, for future decades in Broward County are assumed to result in percentage changes in population “of −1.2% from 2020 to 2030, -2.2% from 2030 to 2040, and −3.3% for each of the remaining two decades” [1]. The rate of change projections for low population growth, for future decades in Palm Beach County are assumed to result in percentage changes in population “of 3.6% from 2020 to 2030, 1.6% from 2030 to 2040, −1.4% from 2040 to 2050, and 0% for 2050–2060” [1]. The turn-of-decade values were then used as the endpoints for calculating CAGRs to fill in population levels for each year, during each decade, for both Broward and Palm Beach Counties. The water demand data shown in the remaining columns in Table 3 were determine by multiplying population data by total daily per capita water usage. It is assumed total daily per capita water usage remains constant at 130.97 and 169.56 gallons in Broward and Palm Beach Counties, respectively [1]. Additional information related to the materials, methods, and assumptions used to integrate data from multiple secondary sources to create the data presented Table 1, Table 2, Table 3 in the present paper is provided in Wurthmann [1].

Specifications Table

SubjectWater Science and Technology
Specific subject areaWater, energy, and cost savings through regionally deployed residential rainwater harvesting systems for lawn irrigation
Type of dataTables
How data were acquiredAll data used in the analysis and presented here were derived from secondary datasets using calculations described herein. No software/programs or hardware were used.
Data formatAll raw and analysed data is provided in the present data article.
Parameters for data collectionIt is assumed that rates of water usage, sizes of homes and lots, numbers of people residing in homes, breakdowns of the percentages of homes based on numbers of bedrooms, and yearly ratios of numbers of single-family detached homes to numbers of people residing in Broward and Palm Beach Counties, Florida, as well as energy intensity of water and costs will remain constant through 2060.
Description of data collectionData were collected from various secondary sources for further analysis and integration, as described in Wurthmann [1], to create the data tables contained in this paper.
Data source locationData were collected for further analysis and integration, as described in Wurthmann [1], to create the data tables contained in this paper from the following secondary sources: high and low expert projections for populations at the turn of each decade from 2010 to 2060 [2,3]; population growth, averages of numbers of people residing in homes, and breakdowns of the percentages of homes based on numbers of bedrooms in Broward and Palm Beach Counties, Florida, for the years 2010 through 2017 [4]; rates of divergence between high and low population projections, based on length of time for the projections [5]; data on existing permits for pumping water from the Biscayne Aquifer and actual 2010 water supply pumpage quantities and corresponding figures for the populations using that water in Broward and Palm Beach Counties, Florida [2,6,7]; data on the average square footages of homes corresponding to numbers of bedrooms in the homes [8]; data on average lot sizes in Broward and Palm Beach Counties, Florida, in 2017 [9]; data on the required application rate of water to landscaped areas in Florida [10,11]; data on historical daily rainfall amounts from 2007 to 2017 in Fort Lauderdale, Florida [12]; vendor-based estimates of costs for RWH system equipment and its installation [13]; data on energy intensity of groundwater [14]; data on costs of energy for Florida industrial customers [15].
Data accessibilityAll raw and analysed data are included with this article. Please see data in article and Table 1, Table 2, Table 3.
Related research articleKurt WurthmannAssessing storage requirements, water and energy savings, and costs associated with a residential rainwater harvesting system deployed across two counties in Southeast FloridaJournal of Environmental ManagementVolume 252, 15 December 2019, 109673 [1]
Value of the Data

These data are useful because they are the first to provide annual projections for Broward and Palm Beach Counties, Florida, during the period 2020–2060, for population growth, numbers of detached homes that must be fit with RWH system equipment each year so 100% of water demand by new residents is continuously offset, and costs and savings in groundwater and energy for its supply.

These data are useful because they summarize a unique integration of data using new analytic approaches, including techniques for RWH system sizing based on a nonparametric bootstrapping approach that synthetically generates daily precipitation, water supply, and irrigation demand using historical daily rainfall data.

These data can benefit researchers, analysts, and policy makers who have interests in outcomes related to population and single-family housing growth in Broward and Palm Beach Counties and developing implementation plans and assessing costs and savings in water and energy for countywide RWH system installations.

The methods used to derive these data can be modified for use in future studies of sustainable water management, which consider alternative contextual conditions, including changes in focal locations, population projections, percentages of populations residing in detached houses, per capita daily water usage, use of harvested rainwater, costs and energy usage, and climate.


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