Potencial de redução da exploração dos recursos hídricos locais pelo aproveitamento de água pluvial em residências no Distrito Federal

Cáceres, Patrícia Silva; Ramos, Samyrian Reis; Sant'Ana, Daniel

doi:10.18830/issn.1679-0944.n23.2019.02

Cited by 7 publications

(7 citation statements)

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“…W r = W 0 × P ws (5) where: W r is the monthly rainwater consumption (litres/month); W 0 is the initial monthly potable water consumption (litres/month) and P ws is the potential for potable water savings obtained in the computer simulations (%).…”

Section: Financial Benefitmentioning

confidence: 99%

“…Traditional approaches to urban water supply prioritise centralised facilities that seek water resources in increasingly distant locations, as potable water demand increases in the city scale [5]. In this sense, RWH systems aim to reduce potable water demand from centralised distribution systems.…”

Section: Introductionmentioning

confidence: 99%

“…Costs of RWH are characterised by high initial outlays, followed by low operational costs throughout their service life [8]. The high cost of such a solution is still a limiting factor for its implementation, and it is recommended that public authorities provide incentives to encourage the population to adopt it [5]. In addition, developing more cost-effective design solutions and innovations is also necessary for improving the financial appeal of RWH systems [6].…”

Section: Introductionmentioning

confidence: 99%

“…Despite this, most approaches used in research are simplistic because they do not consider the full benefits of this type of technology [6]. Considering this, government support through policies and incentives designed to encompass the socio-environmental benefits of RWH systems are essential to disseminate their use on a wider scale [5,12,31,32].…”

Section: Introductionmentioning

confidence: 99%

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Influence of Design Variables on the Financial Feasibility of Rainwater Harvesting Systems

Istchuk

Ghisi

2023

Water

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Extensive implementation of rainwater harvesting (RWH) systems can promote substantial improvement in urban water resource management. Therefore, establishing the financial feasibility of RWH systems is imperative for their dissemination. This study evaluated the influence of rainfall time series indicators (average annual rainfall, seasonality index and behaviour of periods without precipitation) and design variables (catchment area, rainwater demand, number of inhabitants, potable water demand and rainwater tank size) on the financial feasibility of RWH systems in eight Brazilian cities. Correlations between rainfall indicators and financial feasibility were introduced, along with sensitivity analysis of design variables. Financial feasibility was obtained in 30% to 70% of the simulated scenarios. Initial investment and operating costs varied significantly among the eight cities according to local prices. Systems with a catchment area of 200 m2 were capable of supplying, on average, 90.5% of the maximum rainwater consumption observed in this study. Local variation of potable water tariff schemes affected the financial feasibility of RWH systems. The number of inhabitants was the most influential design variable on the financial feasibility of RWH systems, followed by the rainwater tank size. Places with lower rainfall seasonality indexes and lower incidence and duration of dry periods are likely to lead to greater financial feasibility.

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Section: Financial Benefitmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Influence of Design Variables on the Financial Feasibility of Rainwater Harvesting Systems

Istchuk

Ghisi

2023

Water

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“…In general, rainwater is intended for non-potable uses such as toilet flushing, washing clothes, garden irrigation, pavement cleaning and vehicle washing [8]. If adopted on a large scale, such a system can be considered a promising technique for the more rational use of water [9].…”

Section: Introductionmentioning

confidence: 99%

Sustainable Rainwater Management and Life Cycle Assessment: Challenges and Perspectives

et al. 2023

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Rainwater harvesting is a promising technique for more rational water use. However, its sustainability merits remain a subject of ongoing debate among researchers. Life cycle assessment (LCA), a method employed to measure the environmental impact of varying solutions, is helpful in this regard. Accordingly, this paper delivers an integrative review based on the PRISMA protocol, outlining challenges and potential avenues for the LCA application to rainwater harvesting. The central findings indicate that while residential buildings are most commonly examined, more consensus is needed on a uniform analytical framework. Furthermore, several benefits of rainwater are often not considered in LCA and need further exploration to understand possible synergies for its broader implementation. Finally, LCA integration with a life cycle cost assessment (LCCA) shows exciting results as it may be a more straightforward showcase of the benefits of an integrated assessment. It is concluded that specific details of the LCA of rainwater harvesting may still be simplistic. There is much work to be done in holistic assessments to prove the system’s sustainability.

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The Influence of Deep Uncertainties in the Design and Performance of Residential Rainwater Harvesting Systems

Pacheco

Alves²

2023

Water Resour Manage

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The Rainwater Harvesting Systems (RWHSs) have being used as water conservation alternative to guarantee access to water in urban areas facing increasing demand and climate variability. However, the functioning of these systems depends on socio and economic parameters that usually are de ned as constant in traditional viability analyses. The variability of these parameters are not well represented by prede ned probability functions, being named in the literature as deep uncertainty factors differentiating from well-characterized uncertainties whose probability functions are known. This research aimed to evaluate the in uence of uncertainties (deep and well characterized) in the performance of RWHSs in three towns in the State of Goiás, Brazil (Rio Verde, Ipameri and Formosa). Technical (Satis ed Demand -SD, Reliability -REL and Rainwater Consumed -RH) and economic (Net Present Value -NPV, Net Present Value Volume -NPVV and Bene t Cost Rate -BCR) performance criteria were evaluated under a set of 1,000 scenarios comprised of climate (rainfall) and deep uncertainty factors (water tariff, discount rate and operational costs). According to selected performance criteria, the RWHS performed well in 50. 01%, 46.19% and 38.01% of the scenarios in Rio Verde, Ipameri and Formosa, respectively. It was possible to illustrate the impact of the water tariff and the discount rate in the performance of RWHSs in all three cities showing the need to incorporate the variability of these parameters when evaluating RWHSs as alternative source of water supply in urban areas.

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Potencial de redução da exploração dos recursos hídricos locais pelo aproveitamento de água pluvial em residências no Distrito Federal

Cited by 7 publications

References 0 publications

Influence of Design Variables on the Financial Feasibility of Rainwater Harvesting Systems

Influence of Design Variables on the Financial Feasibility of Rainwater Harvesting Systems

Sustainable Rainwater Management and Life Cycle Assessment: Challenges and Perspectives

The Influence of Deep Uncertainties in the Design and Performance of Residential Rainwater Harvesting Systems

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