UNIVERSIDADE PRESBITERIANA MACKENZIE...5.2 Materials and techniques in the application of flexible, semi-flexible and rigid waterproofing systems. 6. Systems of interior and exterior

UNIVERSIDADE PRESBITERIANA MACKENZIE

University Unit: School of Engineering Program: Civil Engineering Area: Civil Construction

Course: Building Construction II

Code: ENEX00577

Workload: 2 ( 2 ) Theory ( 0 ) Practice

Level: 6th Semester: 1st of 2016

Syllabus: Construction technology in non-structural masonry. Technology in design and production of coatings in cement mortar and ceramic tiling on buildings façades and swimming pools. Interior finishing on walls with cement mortar, ceramic tiling and plaster, Interior finishing on walls with cement mortar and ceramic tiling on floors, knowledge on the design and execution of general waterproofing systems for concrete structures, masonry and coatings, various ceilings, stone, wood and vinyl coatings, thermal and acoustic comfort, and technology in executing walls in dry wall and cement panels. Program Content: 1. Design, production and execution of streamlined structural masonry on the external walls and internal partitioning of buildings 1.1 Concept of the types of structural masonry elements; 1.2 Types and properties of mortar for setting structural cinder blocks; 1.3 Technical and construction criteria for quality in production and prevention of pathologies in

structural masonry; 1.4 Quality control based on the standards issued by the ABNT (Brazilian Association of

Technical Standards). 2. Design and production of façade coatings: 2.1. Concepts in the production and application of mortar mixed on-site and industrialized;

2.2. Knowledge of the types of cements, additives and additions used in roughcast mortar and plaster mixed on-site and industrialized;

2.3 Concepts in drafting designs for the production of coatings on building façades; 2.4 Determination in the executive sequence of on-site production of façade coating system with

cement mortar and ceramic tiling, based on the requirements of standards issued by the ABNT (Brazilian Association of Technical Standards).

3. Indoor and outdoor flooring: ceramic tiles, sub-floors, stone, acoustic and wood. 4. Coatings on interior walls: cement mortar, plaster, ceramic tiling and natural or pigmented quartz with acrylic resins. 5. Waterproofing systems for concrete structure (slabs, swimming pools, curtains and water tanks); 5.1 concept and design for the production of waterproofing systems and anomaly prevention. 5.2 Materials and techniques in the application of flexible, semi-flexible and rigid waterproofing systems. 6. Systems of interior and exterior coatings of ceilings: plaster, wood, PVC and acoustic. 7. Systems in the production and control of painting and application of acrylic textures in indoor areas and façades. 8. Execution of privacy walls on boundary slabs and soil and execution of sidewalks. 9. Design, execution and production of coatings for pools, main pathologies and construction materials used (industrialized mortars, types of cement, leveling mortars, adhesive mortars, grouts, ceramic tiles and additives for mortars); 10. Dry wall partition systems.


Basic Bibliography: CEOTTO, Luiz Henrique; BANDUK, Ragueb C.; NAKAKURA, Elza Hissae. Revestimentos de Argamassa: boas práticas em projeto, execução e avaliação. 1. ed. Porto Alegre: Habitare, 2005. THOMAS, Ercio. Tecnologia, gerenciamento e qualidade na construção. 1. ed., São Paulo: Pini, 2001. YAZIGI, Walid. A técnica de edificar. 7. ed. rev. São Paulo: Pini, 2006. Complementary Bibliography: ASSOCIAÇÃO BRASILEIRA DE CIMENTO PORTLAND (ABCP). Mãos à obra pro. 4 v. São Paulo: Alaude, 2013. AZEREDO, Hélio Alves de. O edifício até sua cobertura. 2. ed. rev., 2. reimpr. São Paulo: Edgard Blücher, 2000. BORGES, Alberto de Campos; MONTEFUSCO, Elizabeth; LEITE, Jaime Lopes. Prática das pequenas construções. 8. ed. rev. e ampl. São Paulo: Edgard Blücher, 1998. CAMPANTE, Edmilson Freitas. Projeto e execução de revestimentos cerâmico. 1. ed. São Paulo: O Nome da Rosa, 2003. UEMOTO, Kai Loh. Projeto, execução e inspeção de pinturas. 1. ed. São Paulo: O Nome da Rosa, 2002.


University Unit: School of Engineering Program: Civil Engineering Areas: Structures and Foundations

Course: Constructions Stability II

Code: ENEX01212



Syllabus: Study of Strains of structures. Introduction to Stability of Statically indeterminate Structures. Analysis of simple statically indeterminate beams: diagrams of bending moments under the action of loading, settlement, temperature and forced rotation. Study of continuous beams: analysis through the Three-Moment Equation Method and Propagation Method. Analysis of continuous beams under the action of accidental loading (influence lines). Study of strain energy of isostatic structures: analysis of linear and angular displacements. Program Content: 1. Simple statically indeterminate beams.

Concept. Deductions: terms of loads and fixed end moments. Permanent loading; temperature effects; settlements and forced rotations. Diagrams of internal working forces.

2. Three-moment Equation. Deductions. Continuous beams with fixed and/or hinged ends. Permanent loading; temperature effects; settlements and forced rotations. Diagrams of internal working forces.

3. Propagation method. Analysis of continuous beams. Deductions of the propagation coefficients and moments at the supports. Permanent loading; effects of temperature and settlements. Path of the diagrams of internal working forces.

4. Influence lines of continuous beams. Concept. Propagation factors and moments at the supports. Permanent and accidental loading. Deductions of Influence lines of support reactions, bending moments and shear forces. Calculation of maximum forces.

5. Strain energy. General expressions. Deductions. Principle of virtual work. Clapeyron’s Theorem. Betti’s Theorem.

Basic Bibliography: BORESI, Arthur P. Estática. 2. ed. São Paulo: Thomson Learning, 2003. MARTHA, Luiz Fernando. Análise das estruturas. 1. ed. São Paulo: Elsevier, 2010. SORIANO, Humberto Lima; LIMA, Silvio de Souza. Estática das estruturas. 1. ed. Rio de Janeiro: Ciência Moderna, 2007.


Complementary Bibliography: CEDOLIN, Luigi. Stability of Structures.1. ed. Rio de Janeiro: Editora Dover Publications, 2003. PARETO, Luis. Mecânica e cálculo das estruturas. 1. ed. Rio de Janeiro: Ed. Hemus, 2003. SHEPPARD, Sheri D; TONGUE, Benson H. Estática: análise e projeto de sistemas em equilíbrio. 1. ed. Rio de Janeiro: LTC, 2007. SORIANO, Humberto Lima; LIMA, Silvio de Souza. Análise de estruturas: método das forças e método dos deslocamentos. 2. ed. Rio de Janeiro: Ciência Moderna, 2006. UGURAL, Anselmo C. Mecânica dos materiais. 1. ed. São Paulo: LTC, 2009.


University Unit: School of Engineering Program: Civil Engineering Area: Structures and Foundations

Course: Timber Structures Design

Code: ENEX00945



Syllabus: Study of wood as a raw material in engineering and characterization of its physical and mechanical properties. Description of design methods applied to the design of structural wood parts, structural systems and respective bracing. Study of the combinations of the actions of calculation in ultimate limit states; use and application of statistical methods in the safety of structures. Determining the effects of wind on buildings, according to NBR 6123/88. Design in ultimate limit states of structural elements in single section and composite section of solid wood, subject to traction, compression, bending and shear stress and the combined effects of composite bending and composite oblique bending, according to standard NBR 7190. Design of notched, nailed and screwed connections, according to standard NBR 7190. Verification, in limit states of usage, of strains (sags) on the beams. Study of bamboo and glued laminated timber in the manufacture of structural parts. Program Content: 1. Determining the effects of wind on buildings, according to standard NBR 6123/88: 1.1. Determining dynamic pressure of wind; 1.2. Determining external pressure coefficient and form coefficient for walls and roofs; 1.3. Determining internal pressure coefficient and form coefficient; 1.4. Determining overall pressure coefficient and form coefficient; 1.5. Determining overall loads on the different sides of the building. 2. Loads on the trusses of a roof, by area of influence: 2.1. Permanent load; 2.2. Load due to overload; 2.3. Wind load. 3. Safety in structures: 3.1. Probabilistic nature of the actions; 3.2. Probabilistic nature of mechanical properties; 3.3. Probabilistic models; 3.4. Nominal values of the actions and the mechanical properties of the materials; 3.5. Design methods: - allowable stresses; - Coefficients of actions; - limit states. 4. Study of the actions in the structures, according to standard NBR 8681/2003; 4.1. Ultimate limit states and serviceability limit states; 4.2. Actions and types of actions; 4.3. Representative values of actions in the ultimate limit states and serviceability limit states; 4.4 Usual conditions regarding limit states; 4.5. Ultimate combinations of actions and serviceability combinations of actions in limit states; 4.6. Weighting coefficients for permanent and variable actions;


4.7. Combination coefficients and reduction coefficients of variable actions; 5. Structural Systems: 5.1. Trusses for one- and two-pitched roofs, purlins and braces; 5.2. Structures of floors and respective bracing , 5.3. Simple- and composite -section columns, 5.4. Molds for concrete, false work and respective bracing 5.5. Scaffolding and work platform structures, 5.6. Towers for water tanks 5.7. Structures for floors; 6. Wood as raw material: 6.1. Conifers, monocots and dicots; 6.2. Structure of a tree trunk and its composition; 6.3. Log cuts; 6.4. Commercial profiles; 7. Wood structure designs, according to standard NBR 7190/2010: 7.1. Property of woods; 7.2. Strength and stiffness of wood; - Determining the properties of strength and stiffness, at standard conditions of humidity; - Characterization of the properties of wood; - Simplified characterization of the strength and stiffness of wood; - "kmod" modification coefficient; - strength weighting coefficients for ultimate limit states; - Representative values, characteristic values and calculation values of strength of wood; - Effective modulus. 7.3. Design of elements subject to axial traction; 7.4. Buckling planes, effective length of buckling, slenderness ratios of compression and classification thereof as short, medium slender or slender; 7.5. Calculation of geometric characteristics of simple, rectangular and circular pieces; 7.6. Calculation of geometric characteristics of variable circular section pieces; 7.7. Calculation of the effective geometrical characteristics of pieces with composite section solidarized continuously through nails and discontinuously through lateral spacers or interposed spacers. 7.8. Design of bent elements, with simple and composite section; 7.9. Design of elements subject to shear; 7.10. Verification of bending in the beams; 7.11. Design of simple- and composite-section compression elements; 7.12. Design of elements as short piece, subject to centered compression; 7.13. Design of elements as moderately slender pieces, subject to compound bending; 7.14. Design of elements as slender pieces, subject to compound bending; 7.15. Design of connections; 7.16. Design of purlins; 8. Wood Panels Manufacturing and types of wood panels available on the market and usage thereof in construction, 9. Glued laminated timber (Glulam) 9.1. Manufacture; 9.2.Characteristics of woods used in making pieces of glued laminated timber (glulam); 9.3.Types of glued laminated timber (glulam); 9.4Concepts of designing pieces of glulam. 10.Bamboo 10.1. Usage of bamboo in the manufacture of wood products used in the construction industry;


10.2. Unprocessed bamboo for making structural parts.

Basic Bibliography: BEER, F.P.;JOHNSTON JR.,E.R. Resistência dos materiais.4ed. São Paulo: Makron Books,2006. CALIL JÚNIOR, Carlito; LAHR, Francisco Antonio Rocco; DIAS, Antonio Alves. Dimensionamento de elementos estruturais de madeira. 1. ed. São Paulo: Manole, 2003. PFEIL, Walter; PFEIL, Michéle. Estruturas de madeira. 6. ed. Rio de Janeiro: LTC, 2003. Complementary Bibliography: ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 6123: forças devidas ao vento nas edificações. Rio de Janeiro, 1988. ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 7190: projeto de estruturas de madeira. Rio de Janeiro, 2010. BLESSMAN, Joaquim. Ação dos ventos em edifícios. 2.ed. ampl.Porto Alegre:UFRGS Ed., 1989. MOLITERNO, Antonio. Caderno de projetos de telhados em estruturas de madeira. 2. ed. São Paulo: Edgard Blücher, 1997. QUEIROZ, Gilson de (ed.). Elementos de estruturas de aço. Belo Horizonte, 1986.


University Unit: School of Engineering Program: Civil Engineering Areas: Geotechnics and Transportation

Course: Soil Mechanics Code: ENEX01494



Syllabus: Study of the theoretical and fundamental principles of soil studies applied to civil engineering. Origin and soil formation: coarse soils and fine soils. Soil Hydraulics: Bernoulli’s law; Darcy’s law; Percolation force. Stresses: effective, neutral and total stress; concept submerged specific gravity; Capillarity; Artesian aquifers; Perched water tables. One-dimensional compression: Confined compression of soils; One-dimensional compression model. Total settlements: High compressibility soils (soft clays); Physical concept of densification, with gradual change in neutral and effective pressures; Densification test; Loading vs settlement stages; Testing of multiple stages; concept of pre-densification pressure and densification coefficient. Concepts and Shear Resistance testing of soils. Concept and tests of behavior on compacted soils. California Bearing Index: behavior of soils to compose the subgrades and base courses of pavements. Program Content: 1. Origin and formation of soils 2. Coarse soils and fine soils 2.1 Coarse soils: Grain size; Characteristics of coarse soils; Particle size distribution curve for screening; Interpretation of size distribution curves with the "CNU" and "CC" indices 2.2 Fine soils: Characteristics of fine soils; Plasticity and consistency; Shape of grains of soils; Atterberg limits; Description of LL, PL and CL tests; Plasticity index; Consistency index; Colloidal activity; Sensitivity of clays and crimping; Simple compression test and classification of consistency 3. Soil Hydraulics: Bernoulli’s law; Darcy’s law; Constant head permeameter; Variable head permeameter 4. Percolation force: Critical hydraulic gradient; Quicksand; Protection filters 5. Stresses: The principle of effective stress; Stresses due to own weight; Terzaghi experiment with sand, water and lead balls; Deduction of effective stress; Concept of submerged specific gravity; Capillarity; Artesian aquifers; Perched water tables 6. One-dimensional compression: Confined compression of soils; Total settlements; High compressibility soils (soft clays); One-dimensional compression model associating variation of void indices with variation in layer thickness; Physical concept of densification, with gradual change in neutral and effective pressures; Densification test; Loading vs settlement stages; Testing of multiple stages; Concept of pre-densification pressure 7. Shear strength: Pre-densified and normally densified soils; Mechanical analogy; Development of "neutral pressures" 8. Soil compaction: Compaction process; Structure and behavior of compacted soils; Field compaction and compaction control 9. California Bearing Ratio: Evaluating the behavior of soils to compose subgrades and base courses of pavements.


Basic Bibliography:

VARGAS, Milton. Introdução à Mecânica dos Solos. Editora McGraw-Hill do Brasil: São Paulo, 1977. PINTO, Carlos de Souza. Curso básico de mecânica dos solos: em 16 aulas. 3. ed. São Paulo: Oficina de Textos, 2012. CAPUTO, Homero Pinto. Mecânica dos solos e suas aplicações. 6. ed. rev. Rio de Janeiro: Editora ao Livro Técnico, 2000. V1. Complementary Bibliography: CAPUTO, Homero Pinto. Mecânica dos solos e suas aplicações. 4. ed. rev. São Paulo: Editora ao Livro Técnico, 1998. V3. CRAIG, Robert. F. Mecânica dos solos. Tradução Amir Kurban. Rio de Janeiro: LTC, 2011. DAS, Braja M. Fundamentos de engenharia geotécnica. Tradução All Tasks. Revisão técnica Pérsio Leister de Almeida Barros. 6. ed. São Paulo: Thomson Learning, 2007. FIORI, Alberto Pio; CARMIGNANI, Luigi. Fundamentos de mecânica dos solos e das rochas. São Paulo: Oficina de Textos, 2003. LAMBE, T.W.; WHITMANN, R.V. Soil mechanics (SI Version). John Wiley & Sons, 1979.


University Unit: School of Engineering Program: Civil Engineering Area: Project Management

Course: Budget Planning

Code: ENEX00432



Syllabus: Introduction to methods of budget planning and control of works. Development of criteria for the application of techniques in different circumstances and scenarios of undertakings, aimed at producing budgets, preparing technical and financial proposals, and drafting the planning and execution/control of the works. Notions of direct and indirect costs, fixed and variable costs, rates of social laws and indirect costs and benefits. Process of allocating manpower and materials for activities and estimates of duration. Concepts of dependency relationships. Application of theory in practical cases through computer tools, using specialized software. Program Content: Theory

1. General concepts: cost, expense, budget. Notions of direct and indirect costs. Notions and examples of fixed and variable costs.

2. Budget detailing. Closing the budget, rates of social laws and ICB (social charges). 3. Breakdown of units of manpower and material. Budgetary structure. 4. Process of allocating manpower and materials for activities in a construction project. 5. Concepts of estimating duration of activities in construction projects. Concepts of

dependency relationships. 6. Concept of estimating costs of activities. Quantification of materials and services. 7. Concepts of productivity in the construction industry. 8. Components of cost of materials. 9. Factors that influence the cost of manpower. 10. Course evaluation exercises. 11. Budgetary detailing. ABC Curve. Types of contracts in the construction industry. 12. Budgetary control. Process/ mechanisms for controlling expenses of the work. 13. Continuation of the subject of budgetary control. Calculation of selling price of a construction

project, considering the calculation of the ICB. Laboratory

1. Present the history (Gantt chart), elements and examples of layout of the physical–financial timetables, based on PERT/CPM network data.

2. Notions of preparation of a work timetables and identification of project duration, identifying the critical path. Present mechanisms to detect possible delays in the project;

3. Mechanisms to control established deadlines; 4. Mechanisms to control established budgets. 5. Preparing a budget using market software. 6. Budgetary control using market software. S Curve 7. Exercises of practical evaluation of the construction work budgeting software products such

as Volare. 8. Exercises for practical evaluation of the products. Simulating the budgetary control of a

construction project.


Basic Bibliography: MATTOS, A. D. Planejamento e controle de obras. 2. ed. São Paulo: Pini, 2010. NOCERA, P. E. Planejamento e controle de obras com MS-Project 2007. São Paulo: RJN Ed., 2008. TISAKA, M. Orçamento na construção civil. 2. ed. São Paulo: Pini, 2010. Complementary Bibliography: CIMIRO, R. Planejar para construir. São Paulo: Pini, 1997. DIAS, Paulo Roberto V. Uma metodologia para orçamentação de obras civis. Rio de Janeiro: Hoffmann, 2006. GIAMMUSSO, S. E. Orçamento e custos na construção civil. São Paulo: Pini, 2006. SOUZA, R.; MEKBEKIAN G. Qualidade na aquisição de materiais e execução de obras. São Paulo: Pini, 2005. SOUZA, R. et al. Sistema de gestão da qualidade para empresas construtoras. São Paulo: Pini, 2008. PINI. TCPO: tabela de composições de preços para orçamentos. São Paulo, 2010.


University Unit: School of Engineering Program: Civil Engineering Area: Water Resources and Environment

Course: Ports, Rivers and Channels I

Code: ENEX00434



Syllabus: Conceptualization and study of channel hydraulics applied to waterways and river navigation and practice the concepts and formulations in numerical exercises. Introduction to Hydrometrics, sedimentology and Sedimentometry in rivers and channels. Conceptualization of phenomena involving rivers, channels, lakes and reservoirs, and introduction to river morphology, with the establishment of relations between such phenomena and the environmental impacts of human action on river beds and river banks. Study and reflection on the river bank stability processes and the action of works to protect these river banks and improvements in riverside areas. Introduction of numerical exercises enabling the design of such works, including physical and economic aspects. Introduction to hydraulic design of works in rivers, channels and inland waterways, involving environmental, hydrological, hydraulic and economic aspects. Introduction to river transportation and lake transportation and Introduction to vessels and barge trains for navigation services. Introduction to the design of waterways from hydraulic, technical and economic viewpoints in general. Introduction to the planning, design, construction, improvements, operation, maintenance, dredging, environmental management and navigation services for the establishment of inland waterways, under physical and economic aspects. Introduction to works of gradient transposition, environmental and economic impacts and basic rules for waterway design. River port design and introduction of historical and economic aspects characteristic of river port development. Introduction to its characteristics, types and components and environmental and economic impacts associated with the installation, permanence, operation and maintenance thereof. Program Content: 1. Advanced aspects of free-channel hydraulics of interest for o rivers, channels, waterways and river navigation. 2. Hydrometry, measuring currents, bathymetry and hydrography. 3. Rivers and inland channels. Artificial channels and environmental impacts thereof. 4. Sedimentology and sedimentometry in rivers and channels. 5. Stream morphology: natural phenomena and environmental impacts of human activity on rivers, channels, lakes and reservoirs. 6. Stability of river banks and works for protection thereof. 7. Hydraulic design of works on rivers, artificial channels and inland waterways: hydrological, hydraulic and environmental aspects of interest for projects and works. 8. Navigable waterways and improvement of natural inland waterways for implementation thereof: 8.1. Works of general improvements, standardization and regulation of the river bed; 8.2. Artificial channels; 8.3. Environmental impacts of implementation, operation and maintenance thereof. 9. River and lake transportation: vessels and barge trains for navigation services. 10. Inland waterways: planning, design, construction, improvement, maintenance, dredging and environmental management. Planimetric, altimetric and road Aspects; interferences; channeling.


11. Works for gradient transposition (locks and other). Environmental impacts. 12. River ports: types of mooring structures, usage, construction methods, component works and equipment and areas of Engineering involved in the designs and execution thereof. Environmental impacts of the presence, operation and maintenance thereof. Basic Bibliography: ALFREDINI, P. Obras de gestão de portos e costas: a técnica aliada ao enfoque logístico-ambiental. São Paulo: Edgard Blücher, 2005. ALMEIDA, C. E.; BRIGHETTI, G. Navegação interior e portos marítimos. São Paulo: EPUSP, 1997. v.1. PIMENTA, C. F. Curso de hidráulica geral. Rio de Janeiro: Guanabara Dois, 1981. Complementary Bibliography: BRAY R.N.; BATES A.D.; LAND, J.M. Dredging – A Handbook for Engineers. 2. ed. London: John Wiley and Sons, 1997. CARVALHO, N. O. Hidrossedimentologia prática. 2 ed. rev. Rio de Janeiro: Interciência, 2008. Inclui CD com programas anexos. GRAF, W.H; ALTINAKAR, M. S. Fluvial hydraulics. Chichester/New York: John Wiley and Sons, 1998. LIMA, J. E. F. W.; LOPES, W. T. A. (org.). Engenharia de sedimentos na busca de soluções para problemas de erosão e assoreamento. Porto Alegre: ABRH, 2011. PETERSEN, M. S. River engineering. 4. ed. Englewood Cliffs, New Jersey: Prentice-Hall, 1986.


University Unit: School of Engineering Program: Civil Engineering Areas: Geotechnics and Transportation

Course: Highway and Railways Design Code: ENEX04831



Syllabus: Introduction to road construction. Modes of transportation. Roadways: technical and operational characteristics; road capacity. Railways: technical and operational characteristics; components of the permanent way. Road routes: factors affecting the route; aerial photogrammetry applied to roads. Design: route of the longitudinal axis - horizontal and vertical curves; cross sections – extra width and extra height; earthworks; drainage; protection; signage and safety. Program Content: Theoretical classes/Lectures

1. Introduction to road design. 2. Initial studies for conception and design; rationale for implementing the roadway or railway;

socio-economic studies; traffic studies and research; environmental studies. 3. Preliminary design; obtaining data for the study of alternatives; technical and economic

feasibility for project implementation. 4. Road routes; topographic bases; aerial photogrammetry applied to roads; technical

classification of roads according to traffic volume and design speed; road elements; design directives; route guidelines according to the terrain.

5. Slope stabilization; basic concepts of geology for the design; causes and form of mass movement; primary stabilization techniques; surface treatment of embankments.

6. Design slopes; general considerations and rupture mechanism; cutting slope; embankment slopes; surface drainage.

7. Classification of roads; history and nomenclature of Brazilian roads; Brazilian road system; technical design classification and data.

8. Classification of railroads; history and nomenclature of the domestic rail network; main bottlenecks for freight transportation; railway nomenclature.

9. Concepts visibility on roadways; visibility distance for horizontal curves; visibility distance for vertical curves; extra width; extra height; studies of tire/pavement adherence; interlacing; road intersections.

10. Special engineering structures (bridges, overpasses, etc.); geometric conditions for design of bridge implementation; design and construction methods for bridges and overpasses; design and construction methods for tunnels.


11. Additional works; culvert drainage; deep drainage; pavement drainage; signage; road safety.

Practical classes

1. Study of traction alternatives. 2. Simple horizontal curves; curve elements; topographic location elements; graphical

representation. 3. Compound curves with transition spiral; curve elements; topographic location elements;

graphical representation. 4. Vertical curves; curve elements; topographic location elements; graphical representation. 5. Cross sections; section elements; graphical representation. 6. Earthworks and earth movement; calculation of cut and fill volumes, mass diagram or

Bruckner diagram borrow pits and dump sites. Basic Bibliography: LEE, S. H. Introdução ao projeto geométrico de rodovias. 3. ed. Florianópolis: UFSC, 2008. DEPARTAMENTO NACIONAL DE ESTRADAS DE RODAGEM (Brasil). Manual de projeto geométrico de rodovias rurais. Publicação DNIT IPR 706, Rio de Janeiro, 1999. PONTES FILHO, G. Estradas de rodagem: projeto geométrico. São Carlos: USP, 1998. Complementary Bibliography: AMERICAN ASSOCIATION OF STATE HIGHWAY AND TRANSPORTATION OFFICIALS. A Policy on geometric design of highways and streets. Washington, DC, 2004. BREWER, J. et al. Geometric design practices for european roads. Washington, DC: U.S. Department of Transportation - Federal Highway Administration, 2001. Disponível em: <http://international.fhwa.dot.gov/pdfs/geometric_design.pdf>. BRINA, H. L. Estradas de Ferro. Rio de Janeiro: LTC, 1983. CARVALHO, P. A. S. (coord). Taludes de Rodovia: Orientação para Diagnóstico e Soluções de seus Problemas. São Paulo: IPT/DER, 1991 HOEL, L.A.; GARBER, N.J.; SADEK, A.W. Transportation infrastructure engineering: a multi-modal integration. Ontario, Canada: Thomson, 2008.


University Unit: School of Engineering Program: Civil Engineering Area: Water Resources and Environment

Course: Basic Sanitation I

Code: ENEX01068



Syllabus: Study the health conditions of the population with a focus on Brazilian situation, critically evaluating public health issues and the social and environmental implications thereof, showing traditional contributions and innovations in engineering and management for community water supply systems, focusing on water abstraction and adduction. Estimating the population to be served and demand to be met. Planialtimetric, hydrological and hydraulic studies for water abstraction and adduction projects, focusing on public supply of small, medium and large communities, covering processes and sustainable alternatives to meet such needs, as well as water supply and reuse systems for commercial and industrial purposes - including notions about the various levels of water treatment. Sewage management of public places and buildings. Management of sewage system operations. Management of water loss. Program Content:

1. Introduction 2. Hydraulics applied to sewage systems 3. Sanitary Control of the Environment, Control of Disease Vectors 4. Water supply 5. Water abstraction for residential and industrial supply 6. Adduction for residential and industrial supply 7. Water treatment and reuse 8. Sewerage of public places and buildings. 9. Systems operation management 10. Managing losses in the systems

Basic Bibliography: AZEVEDO NETTO, José M. de. Manual de hidráulica. São Paulo: Edgard Blücher, 1998. RICHTER, Carlos A.; AZEVEDO NETTO, José M. de. Tratamento de água: tecnologia atualizada. São Paulo: Edgard Blücher, 2005. TSUTIYA, Milton T. Abastecimento de água. São Paulo: ABES-SP, 2006.


Complementary Bibliography: AMERICAN WATER WORKS ASSOCIATION. Água: tratamento e qualidade. Rio de Janeiro: Usaid, 1964. 465 p. FACHIN, Zulmar; SILVA, Deise Marcelino da. Acesso à água potável: direito fundamental de sexta dimensão. 2. ed. Campinas, SP: Millennium, 2012. HAMMER, Mark J. Sistemas de abastecimento de água e esgotos. Rio de janeiro: LTC - Livros Técnicos e Científicos, 1979. MORENO, José.; QBAR, Nizar. Manual de controle da qualidade e operação do sistema de abastecimento de água. São Paulo: AESABESP, 2012. 332 p. VALENCIA, Jorge Arboleda. Manual de tratamiento de aguas potables. Caracas: Programa de Educacion de Ingenieria Sanitaria, 1969.


University Unit: School of Engineering Program: Civil Engineering Area: Project Management

Course: Urbanism Code: ENEX00465



Syllabus: Urbanism and Urbanization. Concept of sustainability. Quality of urban life. The modern city: formal and informal. Territories. Land subdivision Typologies. Land use and occupation. Economic and social functions. Urban transformations and their influence on territorial urban planning. Urbanization of the city of São Paulo. The evolution of urban legislation, Brazilian law number 10.257 called O Estatuto da Cidade (The City Statute). The current law of Strategic Master Plan of the city of São Paulo. Macrozones of Urban Qualification, Environmental Protection and Special Areas. Skills. Polar and linear centralities. Additional construction coefficient. Exactions. Progressive property tax. Preemption. Urban Development. Urban Interventions. Housing of social interest. Urban Operations, polarizing and regulating elements of urban development. Urban operations for São Paulo. Urbanistic concessions. Production and sale of residential and commercial projects. Shopping centers. Urban allotment. Urban Management and the Environment. Program Content:

1. Urbanism and urbanization. Analysis of the implications in the development of economic and social functions of the city and urban property. Concept of sustainability. Quality of life.

2. Urban structure. Road routes. Transportation plan. Land use. 3. Urban policy. Basis for Plan, Program, Project. Master Plan and Zoning. 4. Urban Transformations: centralities, suburbanization, industrial decentralization. 5. The Brazilian law called O Estatuto da Cidade - analysis of planned instruments and

applications. 6. Reflections on the city of São Paulo. Study of its urban evolution from the category of village

to today’s macro-metropolis. 7. Concepts of law of the 2002/2004 Strategic Master Plan and the 1971/1972 Master Plan for

Integrated Development. 8. The law of 2014 Strategic Master Plan - consolidation in the transport corridors / Parameters

for buildings / development centers in the outskirts. 9. Macrozone of Structuring and Urban Qualification and Macrozone of Environmental

Protection. The importance of controlling the development of the city and environmental conservation.

10. Typology in uses and activities. The importance of nuisance parameters. Coexistence among residential use, non-residence use and industrial use. Multi-use of urban space through polar and linear centralities.

11. The Special Zones for social care for low-income housing. Special areas for cultural preservation. Rural zone. Activities of unique characteristics (university campuses, airports, speedway...).

12. Utilization and occupation of plots of land. Coefficient of Utilization and Occupancy Rate.


Exaction Urbanistic parameters. 13. Traffic generating centers. Design of roadways. Security. Traffic fluidity. Parking. 14. Urban management and development. Urbanistic instruments. Social and institutional care

with the progressive property tax and the right of preemption. Urban dynamism with urbanistic concessions.

15. Urban Interventions, interconnected operations and urban operations. The CEPAC (Certificate of Additional Construction Potential).

16. The urbanistic and economic results arising from the law called Urban Operations such as: Anhangabaú/ Faria Lima/ Água Branca/ Centro/ Água Espraiada.

17. The new Urban Operations in São Paulo: Rio Verde Jacu/ Diagonal Norte/ Diagonal Sul/ Vila Maria Campo de Marte/ Vila Leopoldina Jaguaré/ Butantã Vila Sonia.

18. Characteristics in the production and sale of residential and commercial real estate developments. Real estate development project. Study for implementation of shopping malls.

19. Study of land division, subdivision and allotment. 20. Environmental Planning. Urban management and the environment. Restrictions

relating to waterways, occupation of hillsides, removal of vegetation. Examination of environmental licensing issues.

Basic Bibliography: BERNARDES, Claudio. Plano Diretor Estratégico, Lei de Zoneamento e a atividade imobiliária em São Paulo. São Paulo: Nome da Rosa, 2005. MUNFORD, Lewis. A cidade na história: suas origens, transformações e perspectivas. São Paulo: Martins Fontes, 1991. VILLAÇA, Flavio. Espaço intra urbano no Brasil. São Paulo: Studio Nobel, 2001. Complementary Bibliography: CAMPOS, Candido Malta. Os rumos da cidade: urbanismo e modernização de São Paulo. São Paulo: Ed. Senac, 2001. MUKAI, Toshio; OLIVEIRA, Aluísio. O Estatuto da Cidade: Lei Federal 10.257. Brasília, 2013. PHILIPPI JÚNIOR, Arlindo; ROMERO, Marcelo; BRUNA, Gilda. Curso de gestão ambiental. São Paulo: USP, 2006. RIBEIRO, Benjamin Adiron. Noções de planejamento urbano. São Paulo: O Semeador, 1988. SAVELLI, Alfredo Mário. Estratégia para aperfeiçoamento dos mecanismos extra-tributários voltados à melhoria urbanística no município de São Paulo. Tese (Doutorado em Urbanismo) – Universidade Presbiteriana Mackenzie, São Paulo, 2009.

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UNIVERSIDADE PRESBITERIANA MACKENZIE...5.2 Materials and techniques in the application of flexible, semi-flexible and rigid waterproofing systems. 6. Systems of interior and exterior