CDW management in Brazil- The Goiânia (GO) Experience Profa. Dra. Rejane Tubino rejane.tubino@ufrgs.br (51) 3308-7104
Implantation of the Construction Site Solid Waste Management Program PGM- Pilot Project 1: Goiânia City
PGM Construction Site Solid Waste Management Program - PGM Clean Construction Waste Program Technical Team - PGM1 Profa. Dra. Rejane Tubino- UFG Coordenator: Profa. Dra. Raquel Blumenschein UnB
Legislation Public Policies PBQP-H Quality and Productivity Brazilian Program at the Habitat- 2002 Fonte: Manual de Resíduos Sólidos- Sinduscon - SP
MINISTÉRIO DAS CIDADES Secretaria Nacional de Habitação SNH PBQP-H Programa Brasileiro da Qualidade e Produtividade do Habitat PBQP-H Referencial Normativo Nível B do SiAC 7.1. Construction Planning 7.1.1. Works Quality Plan (PQO) Construction Company must, for each of their works, elaborate a Works Quality Plan, according to others Quality Management Systems requirements, which must have some elements as follows, when appropriate: i) definition on where the solid and liquid wastes will be destinated (construction solid waste, sewage, used water), which respects the environment. This is ISO 9001:2008 specific for the civil construction industry
Legislation Public Policies CONAMA* Resolution no 307- Civil Construction Solid Waste Management- 05/07/2002 (Complemented by CONAMA* Resolution no 348, which includes asbestos products as D class - dangerous) *Brazilian National Environment Council Fonte: Manual de Resíduos Sólidos- Sinduscon - SP
CDW classification proposed by CONAMA 307/2002 + CONAMA 348/2004 Resolutions Class A: residues reusable or recyclable as aggregates, Class B: recyclable residues for other applications, such as: plastics, paper/paper board, metals, glasses and others; Class C: residues for which no technologies or economically feasible applications have been developed which allow their recycling/recovery (i.e.: gypsum). Class D: dangerous residues, originated from the construction process (paints, solvents, oils and others) or those contaminated. Asbestos products.
Legislation Brazilian Technical Standards Resíduos da construção civil e resíduos volumosos - Áreas de transbordo e triagem - Diretrizes para projeto, implantação e operação NBR 15112:2004 Resíduos sólidos da construção civil e resíduos inertes - Aterros - Diretrizes para projeto, implantação e operação NBR 15113:2004 Resíduos sólidos da construção civil - Áreas de reciclagem - Diretrizes para projeto, implantação e operação NBR 15114:2004 Agregados reciclados de resíduos sólidos da construção civil - Execução de camadas de pavimentação Procedimentos NBR 15115:2004 Agregados reciclados de resíduos sólidos da construção civil Utilização em pavimentação e preparo de concreto sem função estrutural Requisitos NBR 15116:2004 Fonte: Manual de Resíduos Sólidos- Sinduscon - SP
PNRS- Law 12305/2010- Solid Waste National Policy Art. 13. Classification of Solid Waste, according to this law: I Due to the origin: h) Construction and Demolition Waste: residues are those originated from constructions, reformations, repairs and demolitions of civil construction works and those resulting from the preparation and excavation of lands, such as: bricks, ceramic blocks, concrete;
PNRS- Law 12305/2010 Session III Solid Waste State Plans Art. 16. Developing the solid waste state plans, for this law, is the condition for the States to have access to the government budget. 3 o Respeitada a responsabilidade dos geradores nos termos desta Lei, as microrregiões instituídas conforme previsto no 1 o abrangem atividades de coleta seletiva, recuperação e reciclagem, tratamento e destinação final dos resíduos sólidos urbanos, civil construction wastes management, de serviços de transporte, de serviços de saúde, agrossilvopastoris ou outros resíduos, de acordo com as peculiaridades microrregionais.
PNRS- Law 12305/2010 Session V From the solid waste management plan Art. 20. Subject to preparation of the solid waste management plan : III the civil construction companies, according to the regulations issued by the specific bodies indicated by SISNAMA**; ** Environmental National System
PGM CHARACTERISTICS 1st stage: Based on Clean Construction Waste Program (Salvador- BA) resulted on PEL adopted and launched in Goiânia on september 2002 2nd stage: resulted on Solid Waste Materials Management Project (PGM) - Articulation with the public power and the production sector for the detailing and implantation of the Program.
Solid Waste Materials Management Project Composed by a reduction plan, reusing and waste recycling - PmaisL; Reduction must consider all phases and all participants of the waste generation process; At reusing, materials that can be reused are identified and a reusing flow must be encouraged; Recycling depends on the residue quality and appropriate segregation.
PILOT PROJECT 1 - OBJECTIVES Construction sites CDW management Cleaner Production (PmaisL) and waste segregation at the source; Strengthening of the National Learning System of the Construction Industry; Public Power answering the obligations established by the 307 CONAMA Resolution.
PILOT PROJECT 1 - OBJECTIVES Practice: Implementing the CDW reusing process; Implementing the CDW management projects; The flowing off of segregated wastes; Encourage the development of researches to produce new materials and compounds using recycled aggregates.
PILOT PROJECT 1 - IMPLANTATION STEPS
IMPLANTATION STEPS Definition of local strategic group and project presentation; Development and implementation of Construction Solid Waste Materials Management Project; Designation of area to receive those segregate waste at construction sites; Residues characterization and analyses (FURNAS); Residues processing (Goiânia Municipality); Recycled aggregates utilization (FURNAS and Federal University of Goiás).
PILOT PROJECT 1 - OBJECTIVES Flowchart of solid waste management projects at construction sites implantation
Some Goiânia streets situation
1) Stage 1 Workshop Workshop with construction companies at Goiânia to PGRS implantation Source: pictures from SINDUSCON-GO, 2003 In: Blumenschein, 2004
2) Stage 2 manpower awareness and sensibilization at work sites Sensibiliztion at work site of CONENGE Engineering Company, Goiânia-GO. Source: Raquel Blumenschein In: Blumenschein, 2004
2) Stage 2 manpower awareness and sensibilization at work sites Sensibiliztion at work site of TOCTAO Engineering Company, Goiânia-GO. Card done by workers of TOCTAO Engineering Company. Source: Raquel Blumenschein In: Blumenschein, 2004
3) Stages 3, 4, 5, 6 e 7 Places to temporarily receive stored class B residues, such as paper, paperboard, plastic and wood. Implementation at Toctao Engeneering Company- Goiânia GO. Source: Toctao Engeneering. In: Blumenschein, 2004
Class B residues segregation (cement bags and paperboard,) and class C residues (as gypsum) to send to recicle agents. Conenge Engeneering, Goiânia GO. Source: Conenge Engenharia. In: Blumenschein, 2004
Cage to store paper and paperboard. Made by Moreira Ortence Engineering, Goiânia GO. Source: Construtora Moreira Ortence, Goiânia, 2003. In: Blumenschein, 2004
Class A segregated residues (ceramic remains, mortar, bricks and concrete), waiting to go to recycling. TCI Engenharia, Goiânia GO. Source: TCI Engenharia, Goiânia, 2003. In: Blumenschein, 2004
CDW MANAGEMENT IN GOIÂNIA Traditional construction solid waste storage 5 4 1 2 6 3 (1) Rubber, (2) Wood, (3) Plastic, (4) Ceramic, (5) Paper bags and (6) aluminium bag.
CDW MANAGEMENT IN GOIÂNIA Construction Waste storage system according to CONAMA resolution Class A residue Class B residue - Paper Class D residue
RESIDUES STORAGE Processing and classification central - DERMU/COMPAV. Class A residues
RECYCLED AGGREGATES Grading - coarse aggregate 1 pattern (brita 1)
RECYCLED AGGREGATES Grading - coarse aggregate 0 pattern (brita 0)
RECYCLED AGGREGATES Grading stone powder pattern (pó de pedra)
Class A residue being transported for Recycling at DERMU/COMPAV area for processing In: Blumenschein, 2004
Residues being processed by a jaw crusher type at DERMU/COMPAV Goiânia Municipality In: Blumenschein, 2004
Residues being processed at different gradings specified by FURNAS technicians In: Blumenschein, 2004
Residues being processed by a jaw crusher type at DERMU/COMPAV Goiânia Municipality In: Blumenschein, 2004
Recycled aggregates utilization Recycled aggregates with different gradings to construct experimental basis pavement In: Blumenschein, 2004
Recycled aggregates utilization Pavement being executed with recycled aggregate obtained by PGM 1 In: Blumenschein, 2004
Recycled aggregates utilization 1 Sub-base for asphaltic pavement
Technical Reports - Stage I
Technical Reports - Stage II
Experience done at Goiânia City, with the project PGM Stage 1 First stage results: Clean Construction waste Program (PEL). Results related to the Materials Management Program (PGM): General results of PGM, Results related to the institutions which participates of the program point of view.
PEL RESULTS Changing behaviour and values: more critical behaviour and sustainable of their operacional processes; Civil construction solid waste segregation, turning viable new environmental and social sustainables practicals; Adequation to the legal legislation CONAMA 307 resolution.
Guidebook Clean Waste Program
PGM RESULTS OF STAGE 1- GOIÂNIA Guidebook front page: PGM Construction site Management Project
Results at the construction sites Organization and cleanness of the construction sites Cleaner constructions Operational people more educated Reduction of number of containers about 40 to 50%
Results for the environment Reduction of about 60% to 80% of solid waste from construction and demolition going to landfills and illegally at the environment; Possibility of soil and underground water pollution reduction, with the reduction of wastes irregularly disposal;
Results for the environment Possibility reduction of urban drainage impacts, with the irregularly disposal reduction; Possibility reduction of vectors of diseases wich are concentrated in residues irregularly disposal.
FINAL REMARKS Engineering challenge to this century is to live in harmony with the environment and the sustainable development is the way to get this goal (MEHTA, 1999).
References BLUMENSCHEIN, RAQUEL NAVES A Sustentabilidade na Cadeia Produtiva da Indústria da Construção, 263 p. (UnB-CDS, Doutor, Política e Gestão Ambiental, 2004). Tese de Doutorado Universidade de Brasília. Centro de Desenvolvimento Sustentável.
CDW management in Brazil- The Goiânia (GO) Experience Profa. Dra. Rejane Tubino rejane.tubino@ufrgs.br (51) 3308-7104