Verfügbarkeit: Engineering for sustainability

Engineering for sustainability:

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Bibliographische Detailangaben
Hauptverfasser:	Mathaisel, Dennis F. X. (VerfasserIn), Manary, Joel M. (VerfasserIn), Criscimagna, Ned H. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2013
Schriftenreihe:	Sustaining the military enterprise
Schlagworte:	Industrie Wirtschaft BUSINESS & ECONOMICS / Industries / Manufacturing Industries BUSINESS & ECONOMICS / Purchasing & Buying TECHNOLOGY & ENGINEERING / Environmental / General Environmental engineering Sustainable engineering Nachhaltigkeit Umweltbezogenes Management Logistik Produktionswirtschaft Ingenieurwissenschaften Produktlebenszyklus Produkt Design
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XX, 498 S. graph. Darst.
ISBN:	9781439853511

Internformat

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Datensatz im Suchindex

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adam_text	Contents Preface ................................................................................................................................xiii Acknowledgments .............................................................................................................xvii Authors ...............................................................................................................................xix 1 Sustainability Engineering ..............................................................................................1 1.1 The Concept of Sustainability Engineering .................................................................1 1.2 The Need for Sustainability Engineering ....................................................................3 1.2.1 Customer Expectations ..................................................................................4 1.2.2 Market Competition ......................................................................................5 1.2.3 Customer Needs ............................................................................................5 1.3 A Methodology for Sustainability Engineering ..........................................................14 1.3.1 Process Inputs ...............................................................................................17 1.3.2 Process Outputs ............................................................................................19 1.3.3 Management Processes .................................................................................19 1.3.4 Technical Processes ......................................................................................20 1.3.5 Phase Dependency ........................................................................................21 References ...........................................................................................................................23 2 Structuring a Sustainability Engineering Program ......................................................25 2.1 Customer Requirements ............................................................................................25 2.2 Participants in the Process ........................................................................................30 2.2.1 Senior Management ......................................................................................31 2.2.2 Project Leadership ........................................................................................31 2.2.3 Sustainability Engineer ................................................................................32 2.2.4 Logistics Engineer ........................................................................................33 2.2.5 Software Engineer ........................................................................................33 2.2.6 Hardware Engineer ......................................................................................34 2.2.7 Test Engineer ...............................................................................................34 2.2.8 Measurement Analyst ..................................................................................34 2.2.9 Configuration Manager ...............................................................................34 2.2.10 QA Engineer .................................................................................................35 2.2.11 Specialty Engineer ........................................................................................35 2.2.12 Integrated Product Teams .............................................................................35 vi ■ Contents 2.3 Influences and Factors ..............................................................................................36 2.3.1 Enterprise Environment ...............................................................................36 2.3.2 Project Environment ....................................................................................36 2.3.2.1 Project Support ..........................................................................-. 37 2.3.2.2 Technical Process Groups ..........................................................-. 37 2.3.3 External Environment ...............................................................................-. 38 2.3.4 Other Enterprise Projects and Systems ......................................................-. 38 2.4 Integrate Sustainability into the Project Life Cycle .................................................-. 38 3 Foundational Concepts in Sustainability Engineering .................................................43 3.1 System Concept ......................................................................................................-. 43 3.1.1 System Blocks ..............................................................................................43 3.1.1.1 System Elements ...........................................................................45 3.1.1.2 End-Product Elements ...............................................................-.45 3.1.1.3 Subsystem Elements ...................................................................-. 46 3.1.1.4 Enabling-Product Elements ..........................................................46 3.1.2 System Block Roles ....................................................................................-.46 3.1.2.1 WBS ............................................................................................46 3.1.2.2 Specifications of End Products ...................................................-. 50 3.1.2.3 Defining Interfaces .......................................................................52 3.1.2.4 Multidisciplinary Teamwork .........................................................52 3.1.2.5 Recursion and Iteration .................................................................53 3.1.2.6 Assessing Risk ..............................................................................54 3.1.2.7 Technical Reviews .........................................................................55 3.1.2.8 Cost Collection and Reporting ..................................................-. 56 3.2 System Structure ........................................................................................................57 3.2.1 Top-Down Development ..............................................................................57 3.2.2 Bottom-Up Realization ................................................................................61 3.3 Life Cycle Models and Strategies ..............................................................................62 3.3.1 Functions and Characteristics of Life Cycle Models ....................................63 3.3.2 Standard Life Cycle Models .........................................................................64 3.3.3 Life Cycle Strategies ......................................................................................65 3.3.3.1 Once-Through (Waterfall) Strategy ...............................................65 3.3.3.2 Vee Strategy ..................................................................................65 3.3.3.3 Incremental Strategy .....................................................................67 3.3.3.4 Spiral Strategy ...............................................................................67 3.3.3.5 Evolutionary Strategy ...................................................................69 3.3.4 Selection and Tailoring of Life Cycle Models and Strategies ........................70 References ...........................................................................................................................71 4 Sustainability Engineering Methodology .....................................................................73 4.1 Sustainability Engineering Methodology ..................................................................73 4.1.1 Input .............................................................................................................76 4.1.2 Requirements Analysis ..................................................................................76 4.1.3 Requirements Validation .............................................................................77 4.1.4 Functional Analysis Task .............................................................................77 4.1.5 Functional Verification Task .........................................................................81 Contents ■ vii 4.1.6 Synthesis Task ..............................................................................................82 4.1.7 Design Verification .......................................................................................85 4.1.8 Systems Analysis and Control ......................................................................87 4.1.8.1 Trade-Off Studies .........................................................................91 4.1.8.2 System/Cost-Effectiveness Analysis ..............................................92 4.1.8.3 Risk Management ........................................................................92 4.1.8.4 Configuration Management .........................................................92 4.1.8.5 Interface Management .................................................................93 4.1.8.6 Data Management .......................................................................93 4.1.8.7 Integrated Master Plan .................................................................93 4.1.8.8 Technical Performance Measurement ..........................................94 4.1.8.9 Technical Reviews ........................................................................94 4.1.9 Output ........................................................................................................95 4.1.9.1 Specifications and Baselines .........................................................95 4.1.9.2 Life Cycle Support Data ...............................................................96 4.2 Concurrency and Integration ....................................................................................96 References ...........................................................................................................................97 5 Sustainability Engineering Processes ............................................................................99 Introduction ........................................................................................................................99 5.1 Key Terms and Definitions ......................................................................................102 5.1.1 Provider ......................................................................................................102 5.1.2 System ........................................................................................................102 5.1.3 Process ........................................................................................................102 5.1.4 Integrity ......................................................................................................102 5.2 Project Framework Processes ...................................................................................102 5.3 Solution Design Processes ........................................................................................146 5.4 Technical Management Processes ............................................................................191 5.5 Product Realization Processes ..................................................................................253 5.6 Product Utilization Processes ..................................................................................297 6 Tailoring Sustainability Engineering Processes ..........................................................311 6.1 Sustainability Engineering Tasking Document .......................................................311 6.1.1 IMP ............................................................................................................312 6.1.1.1 Use of IMP .................................................................................313 6.1.1.2 IMP Format ................................................................................314 6.1.1.3 IMP Structure .............................................................................315 6.1.1.4 Implementation of an IMP .........................................................316 6.1.2 IMS ............................................................................................................316 6.1.3 TPMs .........................................................................................................316 6.1.4 Technical Integration Plans ........................................................................317 6.1.5 Technical Transition Plans ..........................................................................317 6.1.6 System Configuration .................................................................................317 6.2 Technical Reviews ...................................................................................................318 6.2.1 Structuring the Reviews .............................................................................319 6.2.2 Sustainability Engineer s Role in Reviews ...................................................321 6.2.3 Major Reviews ...........................................................................................322 viii ■ Contents 6.2.3.1 ASR ...........................................................................................322 6.2.3.2 SRR ...........................................................................................323 6.2.3.3 SFR............................................................................................ 323 6.2.3.4 PDR ............................................................................................324 6.2.3.5 CDR ...........................................................................................325 6.2.3.6 SVR ...........................................................................................326 6.2.3.7 FCA ............................................................................................327 6.2.3.8 PCA ............................................................................................327 6.2.4 Subsystem Reviews.....................................................................................327 6.2.4.1 Software Specification Review ...................................................328 6.2.4.2 Subsystem PDR ..........................................................................329 6.2.4.3 Subsystem CDR ..........................................................................329 6.2.4.4 TRR. ..........................................................................................330 6.2.4.5 Subsystem FCA ..........................................................................330 6.2.4.6 Subsystem PCA .........................................................................330 6.2.5 Functional Reviews .......................................................................................330 6.2.5.1 Support Review ...........................................................................331 6.2.5.2 Training Review ..........................................................................331 6.2.5.3 Development Review ..................................................................331 6.2.5.4 Verification Review .....................................................................331 6.2.5.5 Manufacturing Review ...............................................................332 6.2.5.6 Disposal Review ..........................................................................332 6.2.6 Interim System Reviews ..............................................................................332 6.3 Functional Tasks .....................................................................................................333 6.3.1 Human Factors ...........................................................................................333 6.3.2 System Safety and Health Hazards .............................................................333 6.3.3 System Security .........................................................................................334 6.3.4 Producibility ..............................................................................................334 6.3.5 Integrated Logistics Support ......................................................................334 6.3.6 Test and Evaluation ...................................................................................334 6.3.7 Integrated Diagnostics ................................................................................335 6.3.8 Transportability ..........................................................................................335 6.3.9 Infrastructure Support ................................................................................335 6.4 System-Cost-Effectiveness Analysis Tasks ................................................................335 6.4.1 Manufacturing Analysis and Assessment ...................................................336 6.4.2 Verification Analysis and Assessment .........................................................336 6.4.3 Deployment Analysis and Assessment ........................................................336 6.4.4 Operational Analysis and Assessment .........................................................337 6.4.5 Supportability Analysis and Assessment .....................................................337 6.4.6 Training Analysis and Assessment ..............................................................338 6.4.7 Disposal Analysis and Assessment ..............................................................338 6.4.8 Environmental Analysis and Impact Assessment ........................................338 6.4.9 LCC Analysis and Assessment ....................................................................338 6.5 Project Implementation Tasks ..................................................................................339 6.6 Other Pervasive Considerations ...............................................................................339 6.6.1 Computer Hardware ...................................................................................339 6.6.2 Use of Software ..........................................................................................339 Contents ■ ix 6.6.3 Decision Database .....................................................................................340 6.6.4 Open System Architectures .......................................................................340 6.6.5 Prototyping ................................................................................................341 6.6.6 Materials, Processes, and Parts Control .....................................................341 6.7 Tailoring Process ....................................................................................................341 6.7.1 Levels of Tailoring .....................................................................................343 6.7.2 The Tailoring Process .................................................................................343 6.7.3 Process Tailoring Traps ..........................................................................346 Reference ..........................................................................................................................346 7 Designing for Sustainability .......................................................................................347 7.1 Objectives ...............................................................................................................347 7.1.1 Support Concepts ......................................................................................347 7.1.2 Operational and Support Environment ......................................................350 7.1.3 Preventive versus Corrective Maintenance Requirements ...........................350 7.1.4 Two-Level Maintenance .............................................................................351 7.2 Human Engineering ................................................................................................352 7.2.1 Human Factors ...........................................................................................352 7.3 Tools and Support Equipment .................................................................................354 7 Λ Maintenance Training .............................................................................................355 7.5 Testability and Diagnostics ......................................................................................357 7.5.1 Testability ...................................................................................................357 7.5.2 Diagnostics .................................................................................................367 7.6 Interfaces and Connections ....................................................................................368 7.7 Safety and Induced Failures ....................................................................................368 7.8 Standardization and Interchangeability ...................................................................376 7.9 Design Tools ...........................................................................................................377 7.9.1 Analytical Tools .........................................................................................377 7.9.2 Mock-ups ....................................................................................................379 7.9.3 Simulation and VR .....................................................................................379 7.9.4 Handbooks and Other Reference Documents ...........................................382 7.9.5 Artificial Intelligence .................................................................................382 7.9.5.1 Expert Systems ...........................................................................382 7.9.5.2 Neural Networks .......................................................................386 7.10 Design Guidelines ..................................................................................................387 References .........................................................................................................................394 8 Sustainability Analysis ................................................................................................395 8.1 Equipment Downtime Analysis ...............................................................................395 8.2 Sustainability Design Analysis ................................................................................396 8.3 FMEA ....................................................................................................................396 8.4 Testability Analysis .................................................................................................397 8.4.1 Objectives of Testing .................................................................................400 8.4.2 Testing in General .....................................................................................400 8.4.3 Verification, Demonstration, and Evaluation ..............................................401 8.4.3.1 Sustainability Testing: Verification ............................................403 8.4.3.2 Sustainability Testing: Demonstration .......................................404 8.4.3.3 Sustainability Testing: Evaluation ...............................................417 ■ Contents 8.4.4 Dependency Analysis .................................................................................422 8.4.5 Other Types of Testability Analyses ...........................................................434 8.5 Human Factors Analysis ..........................................................................................435 8.6 Managing the Analysis ............................................................................................435 8.6.1 Sustainability Test Procedures ...................................................................437 8.6.2 Maintenance Tasks ....................................................................................437 8.6.3 Administrative Tasks .................................................................................438 8.6.4 Other Duties .............................................................................................439 8.6.5 Data Collection .........................................................................................439 8.6.6 Parameter Calculations ..............................................................................440 8.6.7 Documentation Tasks ................................................................................440 8.6.8 Sustainability Demonstrations ...................................................................440 8.6.9 Defining Needs .........................................................................................441 8.6.10 Using Test Programs to Verify Testability Design Attributes .....................442 8.7 Sustainability Prediction, Allocation, and Assessment ............................................442 8.7.1 Sustainability Prediction ............................................................................442 8.7.2 Sustainability Allocation ............................................................................443 8.7.2.1 FRCM .......................................................................................445 8.7.2.2 Variation of the FRCM ..............................................................446 8.7.2.3 Statistically Based Allocation Method ........................................447 8.7.2.4 Equal Distribution Method .......................................................447 8.7.3 Sustainability Assessment ..........................................................................447 8.8 Quantitative Measures of Sustainability .................................................................448 8.9 Qualitative Measures of Sustainability ....................................................................451 References ..........................................................................................................................452 Assessing Sustainability Capability Maturity .............................................................453 9.1 Overview of the Sustainability Maturity Model ......................................................453 9.1.1 Purpose and Description of the CMMI Model ...........................................454 9.1.2 CMMI Terminology ..................................................................................454 9.1.3 Capability Maturity Levels .........................................................................455 9.1.3.1 Capability Level 0: Incomplete Process ......................................460 9.1.3.2 Capability Level 1: Performed Process ........................................460 9.1.3.3 Capability Level 2: Managed Process .........................................460 9.1.3.4 Capability Level 3: Defined Process ...........................................460 9.1.3.5 Capability Level 4: Quantitatively Managed Process .................460 9.1.3.6 Capability Level 5: Optimizing Process ......................................461 9.1.4 Application to IPTs .....................................................................................461 9.2 Process Descriptions ...............................................................................................462 9.2.1 Engineering Category ................................................................................462 9.2.1.1 Requirements Management .......................................................462 9.2.1.2 Requirements Development .......................................................463 9.2.1.3 Technical Solution ......................................................................465 9.2.1.4 Product Integration .....................................................................465 9.2.1.5 Work Product Verification .........................................................468 9.2.1.6 Work Product Validation ...........................................................469 Contents ■ xi 9.2.2 Project Management Category ....................................................................470 9.2.2.1 Project Planning ..........................................................................471 9.2.2.2 Project Monitoring and Control ..................................................472 9.2.2.3 Supplier Agreement Management ...............................................474 9.2.2.4 Integrated Project Management ..................................................475 9.2.2.5 Risk Management .......................................................................476 9.2.2.6 Quantitative Project Management ..............................................478 9.2.3 Support Category .......................................................................................479 9.2.3.1 Configuration Management ........................................................479 9.2.3.2 Process and Product Quality Assurance .....................................480 9.2.3.3 Measurement and Analysis ..........................................................481 9.2.3.4 Causal Analysis and Resolution .................................................483 9.2.3.5 Decision Analysis and Resolution ..............................................483 9.2.4 Process Management Category ..................................................................484 9.2.4.1 Organizational Process Focus ....................................................484 9.2.4.2 Organizational Process Definition .............................................486 9.2.4.3 Organizational Training ............................................................487 9.2.4.4 Organizational Process Performance ..........................................488 9.2.4.5 Organizational Innovation and Deployment ..............................489 9.3 Generic Activities Applicable to All Processes .........................................................490 9.3.1 Establish an Organizational Policy ............................................................490 9.3.2 Plan Development, Deployment, Use, and Improvement of the Process .......................................................................490 9.3.3 Provide Resources for Management oí the Process ......................................491 9.3.4 Assign Responsibility for Maintenance of the Process .................................491 9.3.5 Train People ...............................................................................................491 9.3-6 Manage Configurations ..............................................................................491 9.3.7 Identify and Involve Relevant Stakeholders ................................................491 9.3.8 Monitor and Control the Process ................................................................491 9.3.9 Objectively Evaluate Adherence to the Policy for Using the Process ...........491 9.3.10 Review the Status of Process Adherence with Higher-Level Management .........................................................................492 References ..........................................................................................................................492 Index .................................................................................................................................493 Engineering Sustainability and sustainable development have become popular goals. They have also become wide-ranging terms that can be applied to any entity or enterprise on a local or a global scale for long time periods. As enterprises and systems become more complex and development and support costs increase, the question remains: how does one engineer an enterprise or a product for sustainability? Engineering for Sustainability provides common sense information for engineering, planning, and carrying out those tasks needed to sustain military products and services and, in turn, the entire enterprise. This book tackles the problem from the top down, beginning with discussions on planning initiatives and implementing sustainable activities. It outlines a series of principles to help engineers design products and services to meet customer and societal needs with minimal impact on resources and the ecosystem. Using examples and case studies from the government, military, academia, and commercial enterprises, the authors provide a set of tools for long-term sustainability and explain how an entire enterprise can be engineered to sustain itself. Achieving the high levels of sustainability needed in complex military and industrial systems is too often an elusive goal. Competing rules and regulations, conflicting goals and performance metrics, the desire to incorporate promising commercial off-the-shelf technologies, and the pressures of maintenance schedules contribute to this elusiveness. This book provides an analysis of and prescription for the strategies, principles, and technologies necessary to sustain the military and the systems it develops and uses. This can then be used to make any enterprise more efficient and cost effective in a changing environment.
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illustrated	Illustrated
indexdate	2024-07-10T00:25:06Z
institution	BVB
isbn	9781439853511
language	English
lccn	2012021336
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-025347530
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physical	XX, 498 S. graph. Darst.
publishDate	2013
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publisher	CRC Press
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series2	Sustaining the military enterprise
spelling	Mathaisel, Dennis F. X. Verfasser aut Engineering for sustainability Dennis F. X. Mathaisel ; Joel M. Manary ; Ned H. Criscimagna Boca Raton [u.a.] CRC Press 2013 XX, 498 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Sustaining the military enterprise Industrie Wirtschaft BUSINESS & ECONOMICS / Industries / Manufacturing Industries bisacsh BUSINESS & ECONOMICS / Purchasing & Buying bisacsh TECHNOLOGY & ENGINEERING / Environmental / General bisacsh Environmental engineering Sustainable engineering Nachhaltigkeit (DE-588)4326464-5 gnd rswk-swf Umweltbezogenes Management (DE-588)4201709-9 gnd rswk-swf Logistik (DE-588)4036210-3 gnd rswk-swf Produktionswirtschaft (DE-588)4123986-6 gnd rswk-swf Ingenieurwissenschaften (DE-588)4137304-2 gnd rswk-swf Produktlebenszyklus (DE-588)4135136-8 gnd rswk-swf Produkt (DE-588)4139399-5 gnd rswk-swf Design (DE-588)4011510-0 gnd rswk-swf Design (DE-588)4011510-0 s Produkt (DE-588)4139399-5 s Produktlebenszyklus (DE-588)4135136-8 s Nachhaltigkeit (DE-588)4326464-5 s DE-604 Ingenieurwissenschaften (DE-588)4137304-2 s Produktionswirtschaft (DE-588)4123986-6 s Logistik (DE-588)4036210-3 s Umweltbezogenes Management (DE-588)4201709-9 s Manary, Joel M. Verfasser aut Criscimagna, Ned H. Verfasser aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025347530&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025347530&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Mathaisel, Dennis F. X. Manary, Joel M. Criscimagna, Ned H. Engineering for sustainability Industrie Wirtschaft BUSINESS & ECONOMICS / Industries / Manufacturing Industries bisacsh BUSINESS & ECONOMICS / Purchasing & Buying bisacsh TECHNOLOGY & ENGINEERING / Environmental / General bisacsh Environmental engineering Sustainable engineering Nachhaltigkeit (DE-588)4326464-5 gnd Umweltbezogenes Management (DE-588)4201709-9 gnd Logistik (DE-588)4036210-3 gnd Produktionswirtschaft (DE-588)4123986-6 gnd Ingenieurwissenschaften (DE-588)4137304-2 gnd Produktlebenszyklus (DE-588)4135136-8 gnd Produkt (DE-588)4139399-5 gnd Design (DE-588)4011510-0 gnd
subject_GND	(DE-588)4326464-5 (DE-588)4201709-9 (DE-588)4036210-3 (DE-588)4123986-6 (DE-588)4137304-2 (DE-588)4135136-8 (DE-588)4139399-5 (DE-588)4011510-0
title	Engineering for sustainability
title_auth	Engineering for sustainability
title_exact_search	Engineering for sustainability
title_full	Engineering for sustainability Dennis F. X. Mathaisel ; Joel M. Manary ; Ned H. Criscimagna
title_fullStr	Engineering for sustainability Dennis F. X. Mathaisel ; Joel M. Manary ; Ned H. Criscimagna
title_full_unstemmed	Engineering for sustainability Dennis F. X. Mathaisel ; Joel M. Manary ; Ned H. Criscimagna
title_short	Engineering for sustainability
title_sort	engineering for sustainability
topic	Industrie Wirtschaft BUSINESS & ECONOMICS / Industries / Manufacturing Industries bisacsh BUSINESS & ECONOMICS / Purchasing & Buying bisacsh TECHNOLOGY & ENGINEERING / Environmental / General bisacsh Environmental engineering Sustainable engineering Nachhaltigkeit (DE-588)4326464-5 gnd Umweltbezogenes Management (DE-588)4201709-9 gnd Logistik (DE-588)4036210-3 gnd Produktionswirtschaft (DE-588)4123986-6 gnd Ingenieurwissenschaften (DE-588)4137304-2 gnd Produktlebenszyklus (DE-588)4135136-8 gnd Produkt (DE-588)4139399-5 gnd Design (DE-588)4011510-0 gnd
topic_facet	Industrie Wirtschaft BUSINESS & ECONOMICS / Industries / Manufacturing Industries BUSINESS & ECONOMICS / Purchasing & Buying TECHNOLOGY & ENGINEERING / Environmental / General Environmental engineering Sustainable engineering Nachhaltigkeit Umweltbezogenes Management Logistik Produktionswirtschaft Ingenieurwissenschaften Produktlebenszyklus Produkt Design
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025347530&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025347530&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT mathaiseldennisfx engineeringforsustainability AT manaryjoelm engineeringforsustainability AT criscimagnanedh engineeringforsustainability

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