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Project clean city: joint trenching for urban facilities; Projeto cidade limpa: vala tecnica para instalacoes urbanas - sistema infavias

Abstract

This study aims to propose a join trench for urban facilities, using concepts related to planning and urban cadastre, sustainability of resource use, and mainly focus on safety during construction, operation and maintenance. The model proposes the replacement of individual construction of facilities of natural gas, potable water, telephone, data transmission and electricity (low and medium voltage) by a system that encompasses all of these facilities in a trench, the deployment may also occur in the same period or if necessary, or at different times, creating flexibility in the system. The security of facilities due to the operational interface between the concessionaires and clients will be ensured by the protected by reinforced concrete structure, designed using the concept of 'fail-safing', derived from the Toyota Production System. The joint trench model was designed from the perspective of sustainability and technological innovation for your future use of the new design of power supply, through the concept of 'Smart Grid' with the use of bidirectional power system transmission and distribution, in decentralized model for generating electricity through cogeneration systems with natural gas. (author)
Authors:
Silva, Aloisio Pereira da [1] 
  1. Companhia de Gas de Santa Catarina (SCGAS), Florianopolis, SC (Brazil)
Publication Date:
Jul 01, 2012
Product Type:
Conference
Report Number:
ETDE-BR-2816
Resource Relation:
Conference: Rio oil and gas expo and conference 2012, Rio de Janeiro, RJ (Brazil), 17-20 Sep 2012
Subject:
42 ENGINEERING; UNDERGROUND; EXCAVATION; SAFETY; URBAN AREAS; FAILURES; POWER TRANSMISSION LINES; PIPELINES; NATURAL GAS DISTRIBUTION SYSTEMS
OSTI ID:
22060109
Research Organizations:
Instituto Brasileiro de Petroleo, Gas e Biocombustiveis (IBP), Rio de Janeiro, RJ (Brazil)
Country of Origin:
Brazil
Language:
Portuguese
Other Identifying Numbers:
TRN: BR1305171
Availability:
Commercial reproduction prohibited. Available from ETDE as OSTI ID: 22060109;
Submitting Site:
BR
Size:
[10 page(s)]
Announcement Date:
Mar 06, 2013

Citation Formats

Silva, Aloisio Pereira da. Project clean city: joint trenching for urban facilities; Projeto cidade limpa: vala tecnica para instalacoes urbanas - sistema infavias. Brazil: N. p., 2012. Web.
Silva, Aloisio Pereira da. Project clean city: joint trenching for urban facilities; Projeto cidade limpa: vala tecnica para instalacoes urbanas - sistema infavias. Brazil.
Silva, Aloisio Pereira da. 2012. "Project clean city: joint trenching for urban facilities; Projeto cidade limpa: vala tecnica para instalacoes urbanas - sistema infavias." Brazil.
@misc{etde_22060109,
title = {Project clean city: joint trenching for urban facilities; Projeto cidade limpa: vala tecnica para instalacoes urbanas - sistema infavias}
author = {Silva, Aloisio Pereira da}
abstractNote = {This study aims to propose a join trench for urban facilities, using concepts related to planning and urban cadastre, sustainability of resource use, and mainly focus on safety during construction, operation and maintenance. The model proposes the replacement of individual construction of facilities of natural gas, potable water, telephone, data transmission and electricity (low and medium voltage) by a system that encompasses all of these facilities in a trench, the deployment may also occur in the same period or if necessary, or at different times, creating flexibility in the system. The security of facilities due to the operational interface between the concessionaires and clients will be ensured by the protected by reinforced concrete structure, designed using the concept of 'fail-safing', derived from the Toyota Production System. The joint trench model was designed from the perspective of sustainability and technological innovation for your future use of the new design of power supply, through the concept of 'Smart Grid' with the use of bidirectional power system transmission and distribution, in decentralized model for generating electricity through cogeneration systems with natural gas. (author)}
place = {Brazil}
year = {2012}
month = {Jul}
}