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Organizing and administering a construction site so that the right resources get to the right place in a timely fashion demands strong leadership and a rigorous process. Good logistical operations are essential to profitability, and this book is the essential, muddy boots guide to efficient site management. Written by experienced educator-practitioners from the world-leading Building Construction Management program at Purdue University, this volume is the ultimate guide to the knowledge, skills, and abilities that need to be mastered by project superintendents. Observations about leadership imperatives and techniques are included. Organizationally, the book follows site-related activities from bidding to project closeout. Beyond outlining broad project managerial practices, the authors drill into operational issues such as temporary soils and drainage structures, common equipment, and logistics. The content is primarily geared for the manager of a domestic or small commercial building construction project, but includes some reference to public and international work, where techniques, practices, and decision making can be substantially different. The book is structured into five sections and fifteen chapters. This facilitates ready adaptation either to industry training seminars or to university courses: Section I. The Project and Site Pre-Planning: The Construction Project and Site Environment (Randy R. Rapp); Due Diligence (Robert Cox); Site Organization and Layout (James O'Connor). Section II. The Site and Field Engineering Issues: Building Layout (Douglas Keith); Soil and Drainage Issues (Yi Jiang and Randy R. Rapp). Section III. Site Logistics: Site Logistical Procedures and Administration (Daphene Koch); Earthmoving (Douglas Keith); Material Handling Equipment (Bryan Hubbard). Section IV. Leadership and Control: Leadership and Communication (Bradley L. Benhart); Health, Safety, Environment (HSE), and Security (Jeffrey Lew); Project Scheduling (James Jenkins); Project Site Controls (Joseph Orczyk); Inspection and QA/QC (James Jenkins). Section V. Planning for Completion: Site-Related Contract Claims (Joseph Orczyk); Project Closeout (Randy R. Rapp).
Supply chain management (SCM) has been stressed as a remedy to many of the underlying issues in the construction industry. However, the positive examples where SCM has been successfully utilised and diminished the lingering issues in construction is scarce. The question is why. Previous studies have stressed the importance of planning both the construction project as such but also the supply chain and the logistics. As an important part of SCM, supply chain planning (SCP) focuses on planning different aspects of the supply chain through involving different members of the supply chain in the planning process. SCP in construction is scarce as the planning of the logistics in general. Failing to plan the supply chain, involving supply chain members in the planning, and integrating the processes of planning the supply chains and the construction project can be one reason for the low numbers of successful SCM adoption in construction. In improving the SCP in construction, this thesis develops a SCP framework for construction that involves the main contractor, subcontractors, and suppliers. The aim is to improve SCP, collaboration, and eliminate many of the common problems in construction through a SCM and SCP perspective. The developed framework is based on an existing planning framework for sales and operations planning. This framework is generic and synthesises planning in general. It consists of identifying/developing: outcomes, input, organisation, process, key performance measurements, and IT-tools. It is thus necessary to investigate what these aspects means in a construction context. Four research objects will be fulfilled: Objective 1. Identify common logistical problems and linkages between them Objective 2. Develop a SCP process Objective 3. Develop a SCP organisation Objective 4. Identify performance measurements
This handbook addresses problems facing the engineer when preparing to build, both during the contract bidding phase and after a contract has been concluded. It offers clear guidelines for planning the resources and machinery on site, as well as the safe positioning of roads, cranes, storage and temporary buildings. Site planning activities are presented here in logical sequence, offering an efficient and safe design of the construction site and of the temporary works. The book describes the process of engineering preparation of on-site construction works in all phases of the construction life-cycle, from the design phase - preparing the financial plan and procurement scheme for the owner before tendering the contract; the tendering phase; and after bid completion. A list of procedures is presented for planning the construction site in order to simplify the engineer’s work of site and temporary works planning. The Engineer’s Manual of Construction Site Planning is for all those involved in the planning of construction sites, construction managers, construction engineers and quantity surveyors, as well as for students in civil engineering and construction.
The construction industry is currently experiencing accelerating developments concerning societal demands along with project complexity, internationalization and digitalization. In an attempt to grasp the consequences of these demands on productivity and innovation, this edited book addresses how innovation is likely to take place with a more long-term perspective on the construction sector. While existing literature focuses on organizational discontinuity and fragmentation as the main reasons for the apparent lack of innovation in the industry, this book highlights the connectivity of construction actors, resources and activities as fundamental for understanding how innovation takes place.Through 15 empirically grounded chapters, the book shows how innovation is part of construction processes on various levels, including project, firm and industry, and that these innovation processes are characterized by organizational and technological connectivity over time. Written by European business management scholars, the chapters cover empirical cases and examples from both a multi-organizational and a multi-international perspective in terms of covering the viewpoints of different industry actors and the contexts of several different European countries including: Sweden, Norway, the UK, Italy, France, Hungary and Poland. By illustrating how connectivity is part of innovation processes in the creation of single-product innovations, of various innovations within and across projects, as well as a fundamental aspect of the processes in which innovations cross nations, the book provides a new angle on how to understand construction innovation and where the industry might (or needs to) be heading next. This book is essential reading for anyone interested in construction management, project management, engineering management, innovation studies, business and management studies.
The construction logistics manager plays an increasingly central role in the construction process. In fact, their decisions can crucially affect the success or failure of a project. Recognition of the critical role they play has spurred evermore interest in this budding field amongst both researchers and practitioners. An accessible text on construction logistics, Supply Chain Management and Logistics in Construction provides essential guidance and expert advice for construction managers, as well as researchers and students in the field. This important new title looks at arrangements with suppliers, the use of returnable packaging and off-site manufacture and assembly, IT systems used to manage the supply chain and logistics operations, such as delivery management systems, warehouse management systems and material planning and forecasting systems. It also considers aspects of the contractual relationships between client, developer, main contractor and lower-tier contractors, all of which have an impact on how the supply chain is managed. In addition to providing a range of fresh ground-breaking case studies, the book features contributions from leading experts in the field who have been involved in projects with companies such as TFL, BAA, The Red Cross, as well as big construction programmes such as the Olympics and Cross Rail.
Construction planning for tall buildings becomes more complex with small land parcels in urban cores, fast-paced schedules and a growing number of domains involved in decision-making. This research consists of evaluating the literature regarding construction planning techniques, decision-making models, constraints in the current construction industry and holding interviews with domain experts to summarize their implicit knowledge regarding construction site logistics planning. It was found that there is no existing tool that adequately optimizes a construction site plan as all research is carried out in isolation, only optimizing a certain piece of equipment or operation. In this research, a multi-domain decision-making tool was developed to assist project planners in site planning on complex construction projects so multiple domain decisions and impacts are simultaneously realized, and a framework for construction site planning that can be applied to the industry was introduced.
A thoroughly updated edition of the classic guide to project management of construction projects For more than thirty years, Construction Project Management has been considered the preeminent guide to all aspects of the construction project management process, including the Critical Path Method (CPM) of project scheduling, and much more. Now in its Sixth Edition, it continues to provide a solid foundation of the principles and fundamentals of project management, with a particular emphasis on project planning, demonstrated through an example project, along with new pedagogical elements such as end-of-chapter problems and questions and a full suite of instructor's resources. Also new to this edition is information on the Earned Value Analysis (EVA) system and introductory coverage of Building Information Modeling (BIM) and Lean Construction in the context of project scheduling. Readers will also benefit from building construction examples, which illustrate each of the principles of project management. This information, combined with the case studies provided in the appendix, gives readers access to hands-on project management experience in the context of real-world project management problems. Features two integrated example projects—one civil and one commercial—fully developed through the text Includes end-of-chapter questions and problems Details BIM in scheduling procedures, Lean Construction, and Earned Value Analysis, EVA Provides teaching resources, including PowerPoint slides, interactive diagrams, and an Instructor's Manual with solutions for the end-of-chapter questions Construction Management and Civil Engineering students and professionals alike will find everything they need, to understand and to master construction project management in this classic guide.
With the current urbanization trend, there is an increased need for city development, i.e. to build apartment buildings, hospitals, schools and infrastructure in cities and urban areas to meet the rising demands. At the same time, land is increasingly seen as a finite resource. This has led to the regeneration of decommissioned industrial-use land for development purposes. This means that multiple individual construction projects are being built in the same or nearby areas during the same time-period. However, the end products of construction projects are produced at their place of consumption, which means that large quantities of materials and resources need to be delivered to, and removed from, each construction site. This leads to new transport flows being created in connection to city development. These transport flows need to be coordinated to ensure efficient construction productivity and reduce the transports’ environmental and social impact on the urban transport system. At the same time, it is important to ensure that construction sites can be managed from a logistics perspective without impairing efficiency due to the challenges of building in urban environments. One way of managing logistics to and from construction projects in city development is through so-called construction logistics setups (CLS). However, the implementation of CLS’s affect many different stakeholders and the interorganizational relationships between them. The implementation of CLS’s therefore faces three challenges; management of transport to and from construction sites, management of logistics at construction sites, and managing the interorganizational relationships amongst construction project stakeholders. The development of CLS’s is often undertaken by mimicking previous setups as there is currently no guiding procedure for developing and implementing CLS’s. To reduce the ad hoc approach to developing and implementing CLS’s, the purpose of this dissertation is to propose a framework for developing construction logistics setups. The purpose is fulfilled with the aid of the following four research questions: RQ1: Taking the perspectives of different stakeholders’, why are CLS’s implemented? RQ2: What type of CLS services are offered? RQ3: How can performance effects of CLS’s be measured? RQ4: How do CLS’s affect the identified challenges of managing the transports to and from construction sites, managing logistics at construction sites, and managing the interorganizational relationships amongst construction project stakeholders? To answer the research questions, three main methodologies have been used; literature reviews to inform the background of the studies and develop analytical frameworks, and case study and Delphi research for the empirical studies. In fulfilling the research purpose, the findings of this dissertation suggests that when developing a CLS, three activities need to be considered; 1. setting the scope of the CLS, 2. deciding on the structure of the CLS, and 3. managing the interorganizational relationships of the CLS. These activities are the foundation of the developed framework. The contents of the activities were derived through the research questions. When answering RQ1, it was found that contractors implement CLS’s to ensure construction productivity, developers implement CLS’s to reduce disturbances to businesses and residents nearby, and municipalities implement CLS’s to reduce disturbances to third-parties and to reduce the impact from construction logistics on the urban transport system. These stakeholder drivers for implementing CLS’s will impact the scope of the CLS. Furthermore, the scope of the CLS was found to be dependent on both the contextual considerations of the CLS in terms of physical context at site and in terms of what is being built, as well as the organizational context in terms of what stakeholders are part of the project, where in the hierarchy the CLS is located, and what level of mandate the CLS has. The scope will also set the terms for how transports are managed through the CLS. If for instance there is limited space at site, this can imply that time-planned deliveries are favoured. In answering RQ2, it was found that as a consequence of what transport management approach is chosen, the structure of the CLS will differ. This dissertation shows that asset-based setups are similar to traditional logistics outsourcing and TPL in which physical distribution services are offered. Non-asset based services on the other hand act more as supply chain orchestrators similar to fourth-party logistics service providers. In these cases, supplied services are aimed more at ensuring that the right services and capabilities can be procured for the CLS. One value-adding service that was found crucial to include in CLS’s is a joint booking and planning system. Having this type of support systems will allow the CLS to coordinate the different stakeholders connected to the CLS. Related to the structure of the CLS, RQ3 suggest that performance needs to be monitored for deliveries, on-site logistics, and the coordination of logistics activities on and off site. The performance monitoring needs to be developed from a logistics point-of-view, taking into consideration the different stakeholders’ perspectives. Finally, in answering RQ4, it was found that a CLS can affect the identified challenges positively. In essence, a CLS aims at managing construction logistics and if developed and implemented from this notion, transports to and from site as well as on-site logistics management can become more efficient. Additionally, the dissertation shows that CLS’s can help in managing the interorganizational relationships within the construction project(s). However, this builds on the notion of having well-developed and communicated service offerings and regulations, e.g. through business and governance models. It was also found that the activities of the framework are interrelated and dependent on one another, suggesting that developing construction logistics setups is an iterative process. The proposed framework should thus be seen as a guideline for how to develop the setup, allowing for adaptations of the setup to the context for which it is developed. Med pågående urbaniseringstrend finns det ett ökat behov av att bygga bostadshus, sjukhus, skolor och infrastruktur i stadsområden för att möta de ökande behoven. Samtidigt ses mark allt mer som en ändlig resurs. Detta har lett till att avvecklad industriell mark tas i anspråk för förtätning och storskaliga stadsutvecklingsprojekt där flera enskilda byggprojekt byggs i närliggande områden under samma tidsperiod. Byggprojekt produceras dock på konsumtionsplatsen vilket innebär att stora mängder material och resurser måste levereras till och tas bort från varje byggarbetsplats. Detta leder i sin tur till att nya transportflöden skapas i samband med stadsutveckling. Dessa måste samordnas för att säkerställa effektiv byggproduktion samtidigt som transporternas miljömässiga och sociala påverkan på det urbana transportsystemet kan minskas. Samtidigt är det viktigt att byggarbetsplatserna kan hanteras ur ett logistikperspektiv utan försämrad effektivitet på grund av det urbana läget. Ett sätt att hantera logistiken till och från byggprojekt inom stadsutveckling är genom så kallade bygglogistiklösningar (BLL). Dock påverkar införandet av BLL många olika intressenter och de interorganisatoriska relationer dem emellan. Införandet av BLL ställs därför inför tre utmaningar; att hantera transporter till och från byggprojekt, att hantera logistiken på byggarbetsplatser och att samordna de interorganisatoriska relationerna mellan byggprojektets intressenter. Utvecklandet av BLL utgår ofta från tidigare lösningar då det i nuläget saknas riktlinjer för hur man kan utveckla och implementera lösningarna. För att minska den här ad hoc-strategin för utvecklandet av BLL är syftet med denna avhandling att föreslå ett ramverk för att utveckla bygglogistiklösningar. Syftet uppnås med hjälp av följande forskningsfrågor: FF1: Utifrån olika intressenters perspektiv, varför implementeras bygglogistiklösningar? FF2: Vilken typ av bygglogistiktjänster erbjuds? FF3: Hur kan bygglogistiklösningars prestanda mätas? FF4: Hur påverkas de tre identifierade utmaningarna av implementeringen av bygglogistiklösningar? Hur påverkar bygglogistiklösningar de identifierade utmaningarna med att hantera transporter till och från byggprojekt, att hantera arbetsplatslogistiken och att samordna de interorganisatoriska relationerna mellan byggprojektets intressenter? För att besvara forskningsfrågorna har tre huvudmetoder använts; litteraturgranskningar för studiernas bakgrund och att utveckla analytiska ramverk, och fallstudieforskning och Delphi-forskning för de empiriska studierna. I uppfyllandet av syftet föreslår avhandlingen att tre aktiviteter måste övervägas när man utvecklar en BLL; 1. fastställa omfattningen av BLL, 2. besluta om BLL-strukturen och 3. hantera interorganisatoriska relationerna i BLL. Dessa aktiviteter är grunden för det utvecklade ramverket. Innehållet i aktiviteterna härleddes genom forskningsfrågorna. I besvarandet av FF1 befanns att entreprenörer implementerar BLL:er för att säkerställa byggproduktivitet, byggherrar implementerar BLL:er för att minska störningar för företag och boende i närheten, och kommuner implementerar BLL:er för att minska störningar för tredje part och för att minska påverkan från bygglogistik på det urbana transportsystemet. De identifierade drivkrafterna för att implementera BLL:er kommer även att påverka BLL:ens struktur. Avhandlingen visar att BLL-strukturen är beroende av kontextuella överväganden med avseende på arbetsplatsens fysiska egenskaper samt vad som byggs, såväl som den organisatoriska kontexten med avseende på vilka intressenter som är del av projektet, var i hierarkin BLL:en placeras och vilken mandatnivå BLL:en har. BLLomfattningen sätter även villkoren för hur transporter hanteras i projektet. Om utrymmet exempelvis är begränsat kan detta innebära att tidsplanerade leveranser premieras. I besvarandet av FF2 befanns det att en konsekvens av hur transporthanteringen läggs upp så kommer BLL-strukturen att påverkas. Den här avhandlingen visar att fysiska logistiklösningar liknar traditionell outsourcing av logistik och TPL där fysiska distributionstjänster erbjuds. Icke-fysiska logistiklösningar fungerar mer som försörjningskedjeorkestratorer och påminner om fjärdepartslogistiktleverantörer. I dessa fall syftar de erbjudna tjänsterna mer till att säkerställa att rätt tjänster och kapacitet kan erbjudas genom BLL. En värdeadderande tjänst fanns vara en grundförutsättning för BLL:er, nämligen gemensamma boknings- och planeringssystem. Ett sådant system hjälper BLL-operatören i koordinationen av de olika intressenterna som är kopplade till BLL:en. I framtagandet av BLL-strukturen föreslår FF3 även att logistikprestanda måste följas upp i processerna leveranser, arbetsplatslogistik och samordning av logistikaktiviteter på och utanför byggarbetsplatsen. Prestationsutvärderingen måste utvecklas ur ett logistikhänseende med hänsyn tagen till de olika intressenternas perspektiv. Slutligen, i besvarandet av FF4, befanns att en BLL kan påverka de identifierade utmaningarna positivt. I grund och botten syftar en BLL till att hantera bygglogistik och om BLL:en utvecklas och implementeras utifrån detta synsätt kan transporter till och från byggarbetsplats samt logistikhantering på plats bli effektivare. Vidare visar avhandlingen att BLL:er kan hjälpa till att hantera de interorganisatoriska relationerna inom byggprojekten. Detta bygger dock på att man har väl utvecklade och kommunicerade serviceerbjudanden med tillhörande regelverk för hur service skall användas. Dessa bör kommuniceras genom affärs- och styrningsmodeller. Det konstaterades också att ramverkets aktiviteter är inbördes relaterade och beroende av varandra, vilket tyder på att utvecklandet av bygglogistiklösningar är en iterativ process. Det föreslagna ramverket bör därför ses som riktlinjer för hur man utvecklar BLL, vilket möjliggör för anpassningar av lösningen till det sammanhang för vilken den utvecklas.
Construction Project Management offers some of the best project management studies commissioned by ELECTRI International: The Foundation for Electrical Construction that were selected, coordinated, and monitored by some of the most progressive contractors and performed by outstanding scholars from top U.S. universities. Topics include pre-construction planning, early warning signs of project distress, impact of change orders, project sequencing, ideal jobsite inventory levels, tool and material control systems, recommended safety practices, partnering, total quality management, quality assurance, performance evaluations, and contract risk management. All specialty and general contractors will find value in this practical book. The concepts presented will improve your understanding of the main issues affecting construction project management and will provide you with tools and strategies to enhance your company's productivity and profitability.
In A Single Volume, This Book Presents A Comprehensive Account Of The Subject Matter For Construction Planning And Management. Each Chapter Is Preceded By Instructional Objectives In Order To Promote Well-Defined Study. References To Related Indian Standard Codes Of Practice Are Included. Numerous Questions And Solved Examples Along With Various Illustrations, Graphs And Tables Facilitate Clarity In Understanding The Subject An Immensely Useful Work For Students Of Civil Engineering In Polytechnics And Engineering Colleges.