Environmental Life-Cycle Assessment of an Innovative Multifunctional Toilet

Environmental Life-Cycle Assessment of an Innovative Multifunctional Toilet

energies Article Environmental Life-Cycle Assessment of an Innovative Multifunctional Toilet Carla Rodrigues 1,* , João Almeida 2,3, Maria Inês Santos 2, Andreia Costa 4, Sandra Além 5, Emanuel Rufo 5, António Tadeu 2,6 and Fausto Freire 1 1 ADAI-LAETA, Department of Mechanical Engineering, Faculty of Sciences and Technology, University of Coimbra, Rua Luís Reis Santos, Pólo II, 3030-788 Coimbra, Portugal; [email protected] 2 Itecons—Institute for Research and Technological Development in Construction, Energy, Environment and Sustainability, Rua Pedro Hispano, 3030-289 Coimbra, Portugal; [email protected] (J.A.); [email protected] (M.I.S.); [email protected] (A.T.) 3 Chemistry Centre, Department of Chemistry, Faculty of Sciences and Technology, University of Coimbra, Rua Larga, Pólo I, 3004-535 Coimbra, Portugal 4 OLI—Sistemas Sanitários, S.A., Travessa do Milão, Esgueira, 3800-314 Aveiro, Portugal; [email protected] 5 Sanindusa—Indústria de Sanitários S.A., Zona Industrial Aveiro Sul, Rua Augusto Marques Branco, 84, 3810-783 Aveiro, Portugal; [email protected] (S.A.); [email protected] (E.R.) 6 ADAI, Department of Civil Engineering, Faculty of Sciences and Technology, University of Coimbra, Rua Luís Reis Santos, Pólo II, 3030-788 Coimbra, Portugal * Correspondence: [email protected]; Tel.: +351-239-790708 Abstract: Innovative toilets can save resources, but have higher embodied impacts associated with materials and electronic components. This article presents an environmental life-cycle assessment (LCA) of an innovative multifunctional toilet (WashOne) for two alternative configurations (with or without washlet), comparing its performance with those of conventional systems (toilet and Citation: Rodrigues, C.; Almeida, J.; bidet). Additionally, two scenario analyses were conducted: (i) user behavior (alternative washlet use Santos, M.I.; Costa, A.; Além, S.; Rufo, patterns) and (ii) user location (Portugal, Germany, the Netherlands, Sweden and Saudi Arabia). The E.; Tadeu, A.; Freire, F. Environmental results show that the WashOne with washlet has a better global environmental performance than the Life-Cycle Assessment of an conventional system, even for low use. It also reveals that the use phase has the highest contribution Innovative Multifunctional Toilet. to impacts due to electricity consumption. User location analysis further shows that Sweden has Energies 2021, 14, 2307. https:// doi.org/10.3390/en14082307 the lowest environmental impact, while Germany and the Netherlands have the highest potential for impact reduction when changing from a conventional system to the WashOne. Based on the Academic Editor: Ioan Sarbu overall results, some recommendations are provided to enhance the environmental performance of innovative toilet systems, namely the optimization of the washlet use patterns. This article highlights Received: 2 March 2021 the importance of performing a LCA at an early stage of the development of innovative toilets by Accepted: 15 April 2021 identifying the critical issues and hotspots to improve their design and performance. Published: 19 April 2021 Keywords: bidet; eco-design; energy savings; life-cycle assessment; toilet; user behavior; washlet; Publisher’s Note: MDPI stays neutral water savings with regard to jurisdictional claims in published maps and institutional affil- iations. 1. Introduction Buildings are recognized as one of the highest users of freshwater, consuming enor- mous amounts of energy and water resources and, ultimately, generating high environ- Copyright: © 2021 by the authors. mental impacts. The water cycle of buildings requires a great amount of energy due to Licensee MDPI, Basel, Switzerland. raw water treatment and distribution, use in buildings (domestic hot water), and wastew- This article is an open access article ater treatment [1]. Water heating represents 13% of energy consumption in residential distributed under the terms and buildings [2], with conventional toilet systems having a significant share [3]. conditions of the Creative Commons Innovative toilet systems can save water and energy, but have higher embodied im- Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ pacts associated with materials and electronic components. Environmental life-cycle assess- 4.0/). ment (LCA) can be applied to evaluate and compare alternative toilet systems (conventional Energies 2021, 14, 2307. https://doi.org/10.3390/en14082307 https://www.mdpi.com/journal/energies Energies 2021, 14, 2307 2 of 15 and innovative), providing a holistic assessment from cradle to grave and avoiding burden shifting. In particular, it is important to analyze trade-offs between increased embodied impacts and operational savings of innovative toilet systems. Additionally, LCA performed in early design stages of the development of products can support design decisions before innovative products’ or emerging technologies’ entry into the market, revealing the benefits of considering environmental performance as a design constraint [4,5]. Employing LCAs in innovative products enables improved product eco-design through early hotspot detection allowing optimization of material choices and use-phase efficiency. LCAs have been used to assess the environmental performance of several innovative systems/products, particularly in the building sector [6–9]. LCA methodology allows the identification of hotspots by quantifying the benefits of a product or system and improvement opportunities for their environmental performance. Some LCA studies of toilet systems available in the literature focused on the production phase of ceramic sanitary ware (cradle-to-site) [10,11]. There are several LCA studies focused on wastewater treatment (WWT) for conventional toilets and source-separation systems [12–15], while others examine alternative water sources for the flush system (rain- water, seawater, grey water reuse) [16–23]. Lam et al., 2017 assessed the energy efficiency of non-potable water systems (including toilets) for domestic use [24]. Gnoatto et al., 2019 evaluated the life-cycle impacts of different solutions for toilet flush systems, particularly comparing single and double flush [25]. The production phase of a toilet system is often neglected in LCA studies of toilet systems because its contribution to the total life-cycle impacts is usually low (taking into account the extended life-time of these systems), but also because in comparative studies of alternative WWT systems it is usually assumed that the toilet is the same, so the impact of the sanitary ware is the same in all scenarios. Regarding the “washlet” system, there are no comprehensive LCA studies on these types of systems. Several gaps were identified regarding the environmental assessment of innovative toilets that have never been addressed in the literature. Firstly, there are no studies performing a cradle-to-grave life-cycle assessment of toilets, particularly the innovative ones. Additionally, there is a need to address the trade-offs between the potential energy efficiency of innovative toilets and the increase in the environmental impacts due to energy consumption, particularly in the new washing functions, as well as the use of critical materials in electronic components. Finally, these toilets have a worldwide market, different from conventional models, which can highly influence their environmental performance due to transportation impacts, as well as affecting the country-specific electricity mix that can vary depending on the final user location. To sum up, innovative toilets have never been studied in a life-cycle perspective to assess their environmental performance and potential energy efficiency benefits due to their multifunctionality. WashOne is an innovative multifunctional toilet that incorporates a self-cleaning sys- tem (called a washlet system, to replace the conventional bidet), and an integrated water storage and flush system [26]. A rendering of the WashOne toilet system is presented in Figure1. This multifunctional toilet is being developed by a Portuguese consortium com- prising two companies from the sanitary ware industry (OLI and Sanindusa), a company providing electronic engineering solutions (Evoleo) and several higher education institu- tions (University of Aveiro and University of Coimbra) and applied research institutions (Itecons, Portuguese Association for Quality in Buildings’ Water Installations - ANQIP). Energies 2021Energies, 14, 20212307, 14, 2307 3 of3 15 of 16 FigureFigure 1. Rendering 1. Rendering of the of innovative the innovative multifunctional multifunctional toilet toilet (WashOne). (WashOne). Source: Source: Developed Developed by aa subsetsubset of authors. of authors. The “washlet” system incorporates conventional bidet features into the toilet, re- The “washlet” system incorporates conventional bidet features into the toilet, sponding to a recent market trend for high standards of comfort and hygiene. The water respondingstorage to and a recent flush system market integrated trend for into high the standards toilet meets of thecomfort compactness and hygiene. needs required The water storageby and current flush design system solutions integrated (reducing into the th volumee toilet occupied)meets the and compactness allows the optimization needs required of by currentthe flushing design system solutions and consequently(reducing the the vo uselume of water. occupied) and allows the optimization of the flushingThe goal system of this and article consequently

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