Techniques and devices for smart bath

Detalhes bibliográficos
Autor(a) principal: Araújo, Alex Sandro
Data de Publicação: 2018
Outros Autores: Timm, Lucas Lemos, Mello, Simmer Luiz, Arruda, Antonio Carlos Santos, Paiva, Gilberto, Moreira, Raphael Garcia, Freitas, Carlos Alberto
Tipo de documento: Artigo
Idioma: por
Título da fonte: REMIPE
Texto Completo: https://remipe.fatecosasco.edu.br/index.php/remipe/article/view/71
Resumo: The current scenario observed in the energy and water sources from Brazil requires more controlled forms of use to ensure the sustainability of these resources. In this sense, the purpose of this study was to produce results that can be quickly employed by the company of all walks of life in an environment where most concentrates the energy and water consumption: the bathroom stall. Four strategies that will assist the rational use of water and energy were developed. The first is a systemic intervention of domestic showers to reduce energy consumption by 75% and reduces the flow of water, without damaging the electrical resistance. A second strategy is the improvement of a heat exchanger to shower that takes advantage of the heat from the water rejected into the drain to preheat the water will get into the shower, with use of up to 44%. As a third strategy, a layer of hydrophobic material has been deposited on the inner walls of the shower stall in order to reduce the retention of dirt and waste on these surfaces, resulting in reduction of the need to wash this environment and, finally, a fourth strategy is a system that monitors the activity of the bath through the resistivity of the water discharged into the drain, this resistivity will indicate whether the person is still bathing or is being wasted, if characterized waste one solenoid will cut the supply of water shower. The results were compliant with the designed and the work suggests that further studies can be done to improve energy efficiency and water in the bathing place.
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spelling Techniques and devices for smart bathTécnicas e dispositivos para um banho inteligenteÁguaEnergiaSustentabilidadeBanheiroHidrofóbicaEnergySustainabilityBathroomHydrophobicThe current scenario observed in the energy and water sources from Brazil requires more controlled forms of use to ensure the sustainability of these resources. In this sense, the purpose of this study was to produce results that can be quickly employed by the company of all walks of life in an environment where most concentrates the energy and water consumption: the bathroom stall. Four strategies that will assist the rational use of water and energy were developed. The first is a systemic intervention of domestic showers to reduce energy consumption by 75% and reduces the flow of water, without damaging the electrical resistance. A second strategy is the improvement of a heat exchanger to shower that takes advantage of the heat from the water rejected into the drain to preheat the water will get into the shower, with use of up to 44%. As a third strategy, a layer of hydrophobic material has been deposited on the inner walls of the shower stall in order to reduce the retention of dirt and waste on these surfaces, resulting in reduction of the need to wash this environment and, finally, a fourth strategy is a system that monitors the activity of the bath through the resistivity of the water discharged into the drain, this resistivity will indicate whether the person is still bathing or is being wasted, if characterized waste one solenoid will cut the supply of water shower. The results were compliant with the designed and the work suggests that further studies can be done to improve energy efficiency and water in the bathing place.O atual cenário observado nas fontes energéticas e hídricas do Brasil exige formas de uso mais controladas que garantam a sustentabilidade destes recursos. Nesse sentido, a proposta deste trabalho foi a de produzir resultados que possam ser rapidamente empregados pela sociedade de todas as classes sociais em um ambiente onde mais se concentra o consumo de água e energia: o box do banheiro. Foram desenvolvidas quatro estratégias que irão auxiliar o uso racional da água e energia. O primeiro consiste de uma intervenção sistêmica dos chuveiros domésticos visando reduzir o consumo de energia em até 75% além de reduzir a vazão de água, sem danificar a resistência elétrica. Uma segunda estratégia é o aperfeiçoamento de um trocador de calor para chuveiro que aproveita o calor da água rejeitada para o ralo para pré-aquecer a água que irá entrar no chuveiro, com aproveitamento de até 44%. Como terceira estratégia, uma camada de material hidrofóbica foi depositada sobre as paredes internas do box do chuveiro, visando diminuir a retenção de sujeiras e resíduos nestas superfícies, que resultou na redução da necessidade de lavar este ambiente e, por fim, uma quarta estratégia consiste de um sistema que monitora a atividade do banho por meio da resistividade da água descartada no ralo, esta resistividade irá indicar se a pessoa ainda está tomando banho ou se está havendo desperdício, caso seja caracterizado o desperdício uma solenoide irá cortar o fornecimento de água do chuveiro. Os resultados obtidos foram aderentes com o projetado e o trabalho sugere que novos estudos podem ser feitos visando melhorar a eficiência energética e hídrica no local de banho.FATEC Osasco2018-01-26info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://remipe.fatecosasco.edu.br/index.php/remipe/article/view/7110.21574/remipe.v2i1.71REMIPE - Revista de Micro e Pequenas Empresas e Empreendedorismo da Fatec Osasco; v. 2 n. 1 (2016): REMIPE - Revista de Micro e Pequenas Empresas e Empreendedorismo da Fatec Osasco; 3 - 182446-862210.21574/remipe.v2i1reponame:REMIPEinstname:Faculdade de Tecnologia de Osasco (FATEC)instacron:FATECporhttps://remipe.fatecosasco.edu.br/index.php/remipe/article/view/71/35Araújo, Alex SandroTimm, Lucas LemosMello, Simmer LuizArruda, Antonio Carlos SantosPaiva, GilbertoMoreira, Raphael GarciaFreitas, Carlos Albertoinfo:eu-repo/semantics/openAccess2021-06-07T16:36:51Zoai:remipe.fatecosasco.edu.br:article/71Revistahttp://remipe.fatecosasco.edu.br/index.php/remipe/PRIhttp://remipe.fatecosasco.edu.br/index.php/remipe/oaifernando@fernandoasantos.com.br10.215742446-86222446-8622opendoar:2024-04-22T12:03:03.313992REMIPE - Faculdade de Tecnologia de Osasco (FATEC)false
dc.title.none.fl_str_mv Techniques and devices for smart bath
Técnicas e dispositivos para um banho inteligente
title Techniques and devices for smart bath
spellingShingle Techniques and devices for smart bath
Araújo, Alex Sandro
Água
Energia
Sustentabilidade
Banheiro
Hidrofóbica
Energy
Sustainability
Bathroom
Hydrophobic
title_short Techniques and devices for smart bath
title_full Techniques and devices for smart bath
title_fullStr Techniques and devices for smart bath
title_full_unstemmed Techniques and devices for smart bath
title_sort Techniques and devices for smart bath
author Araújo, Alex Sandro
author_facet Araújo, Alex Sandro
Timm, Lucas Lemos
Mello, Simmer Luiz
Arruda, Antonio Carlos Santos
Paiva, Gilberto
Moreira, Raphael Garcia
Freitas, Carlos Alberto
author_role author
author2 Timm, Lucas Lemos
Mello, Simmer Luiz
Arruda, Antonio Carlos Santos
Paiva, Gilberto
Moreira, Raphael Garcia
Freitas, Carlos Alberto
author2_role author
author
author
author
author
author
dc.contributor.author.fl_str_mv Araújo, Alex Sandro
Timm, Lucas Lemos
Mello, Simmer Luiz
Arruda, Antonio Carlos Santos
Paiva, Gilberto
Moreira, Raphael Garcia
Freitas, Carlos Alberto
dc.subject.por.fl_str_mv Água
Energia
Sustentabilidade
Banheiro
Hidrofóbica
Energy
Sustainability
Bathroom
Hydrophobic
topic Água
Energia
Sustentabilidade
Banheiro
Hidrofóbica
Energy
Sustainability
Bathroom
Hydrophobic
description The current scenario observed in the energy and water sources from Brazil requires more controlled forms of use to ensure the sustainability of these resources. In this sense, the purpose of this study was to produce results that can be quickly employed by the company of all walks of life in an environment where most concentrates the energy and water consumption: the bathroom stall. Four strategies that will assist the rational use of water and energy were developed. The first is a systemic intervention of domestic showers to reduce energy consumption by 75% and reduces the flow of water, without damaging the electrical resistance. A second strategy is the improvement of a heat exchanger to shower that takes advantage of the heat from the water rejected into the drain to preheat the water will get into the shower, with use of up to 44%. As a third strategy, a layer of hydrophobic material has been deposited on the inner walls of the shower stall in order to reduce the retention of dirt and waste on these surfaces, resulting in reduction of the need to wash this environment and, finally, a fourth strategy is a system that monitors the activity of the bath through the resistivity of the water discharged into the drain, this resistivity will indicate whether the person is still bathing or is being wasted, if characterized waste one solenoid will cut the supply of water shower. The results were compliant with the designed and the work suggests that further studies can be done to improve energy efficiency and water in the bathing place.
publishDate 2018
dc.date.none.fl_str_mv 2018-01-26
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://remipe.fatecosasco.edu.br/index.php/remipe/article/view/71
10.21574/remipe.v2i1.71
url https://remipe.fatecosasco.edu.br/index.php/remipe/article/view/71
identifier_str_mv 10.21574/remipe.v2i1.71
dc.language.iso.fl_str_mv por
language por
dc.relation.none.fl_str_mv https://remipe.fatecosasco.edu.br/index.php/remipe/article/view/71/35
dc.rights.driver.fl_str_mv info:eu-repo/semantics/openAccess
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv FATEC Osasco
publisher.none.fl_str_mv FATEC Osasco
dc.source.none.fl_str_mv REMIPE - Revista de Micro e Pequenas Empresas e Empreendedorismo da Fatec Osasco; v. 2 n. 1 (2016): REMIPE - Revista de Micro e Pequenas Empresas e Empreendedorismo da Fatec Osasco; 3 - 18
2446-8622
10.21574/remipe.v2i1
reponame:REMIPE
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instname_str Faculdade de Tecnologia de Osasco (FATEC)
instacron_str FATEC
institution FATEC
reponame_str REMIPE
collection REMIPE
repository.name.fl_str_mv REMIPE - Faculdade de Tecnologia de Osasco (FATEC)
repository.mail.fl_str_mv fernando@fernandoasantos.com.br
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