Kooperativer Bibliotheksverbund

UID:

Format: 1 online resource

ISBN: 9783527679546 , 3527679545 , 9783527679553 , 3527679553 , 9783527679560 , 3527679561 , 9783527337095 , 3527337091 , 3527335676 , 9783527335671

Content: The first comprehensive guide to modern laboratory planning in ten years to address both construction and operating aspects. The 30 editors and authors are affiliated with the International Institute for Sustainable Laboratories (I2SL) and with the European Association for Sustainable Laboratory Technologies (EGNATON), which has also endorsed this ready reference. This expert team covers the entire lifecycle of a laboratory facility, starting with the site layout and the planning of the building, followed by the planning of such areas as housing for laboratory animals, clean rooms and produ.

Note: Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Part I Laboratory Building and Laboratory Equipment -- Subjects of Laboratory Design of Building and Equipment; Chapter 1 Introduction: Laboratory Typologies; 1.1 Purpose; 1.2 Science Direction; 1.3 Fields of Activities; 1.4 Working Methods; 1.5 Physical Structure; 1.5.1 What is the Conclusion Resulting from the Evaluation of the Lab Allocation Tree?; 1.5.2 Use-Specific and Building-Related Needs and Requirements; 1.5.3 Determination of the Areas for Independent Buildings or Special Components. , 1.5.4 Determination of the Areas as Restricted Areas1.5.5 Areas with Locks and Access Area; 1.5.6 Determination of Areas with Special Requirements Regarding Fire and Explosion Protection; 1.5.7 Determination of Areas for the Laboratory Equipment; 1.5.8 Determination of Areas for Special Laboratories; 1.5.9 Determination of Standard Laboratory Areas; 1.5.10 Conception Laboratory Building; 1.6 Conclusion; Chapter 2 Requirements and Determination of Requirements; 2.1 Area Misuse through Wrong Grids; 2.1.1 Determination of Requirements of Workplaces and Storage Space for Extra Equipment. , 2.1.2 Flexible Laboratory SpaceChapter 3 Laboratory Concept and Workstations; Chapter 4 Determination of User Needs -- Goal-Oriented Communication between Planners and Users as a Basis for Sustainable Building; 4.1 Work Areas; 4.2 Work Flows and Room Groups; Chapter 5 Corporate Architecture -- Architecture of Knowledge; 5.1 Image-The Laboratory as a Brand; 5.2 Innovation- The Laboratory as the Origin of Knowledge; 5.3 Excellence: The Laboratory as a Magnet for High Potentials; Chapter 6 Scheduler Tasks in the Planning Process; 6.1 Project Preparation; 6.2 Integral Planning Teams. , 6.3 User Participation6.4 Planning Process; 6.5 Execution Phase; 6.6 Commissioning; 6.7 Conclusion; 6.8 Best Practice; 6.8.1 Project: Center for Free-Electron Laser Science CFEL, Hamburg-Bahrenfeld; 6.8.2 Project: Max Planck Institute for Aging Biology, Cologne, Germany; Chapter 7 Space for Communication in the Laboratory Building; 7.1 Definition of Terms; 7.2 Historical Development; 7.3 Development in the Modern Age- Why and When Were These Ideal Conceptions Lost?; 7.3.1 Why Is Communication Important in the Laboratory Building?; 7.3.1.1 Communication Promotes Knowledge and Innovation. , 7.3.1.2 Communication and Safety in the Laboratory is Not a Contradiction7.3.2 How Does Space for Communication Evolve?; 7.4 Conclusion for Future Concepts; Chapter 8 Fire Precautions; 8.1 Preventive Fire Protection; 8.1.1 Scope; 8.1.1.1 Fire Protection; 8.1.2 Legal Framework -- Construction Law; 8.1.3 Model Building Code; 8.1.3.1 Walls, Ceilings, and Roofs; 8.1.3.2 Ceilings, Roofs; 8.1.3.3 Section 33 (MBC); 8.1.4 Special Building Codes; 8.1.5 Other Rules and Regulations Including Structural Fire Protection Requirements for Laboratories; 8.1.5.1 TRGS 526/BGR 120/BGI 850-0.

Additional Edition: Print version: Sustainable laboratory handbook : design, equipment, operation. Weinheim, Germany : Wiley-VCH, ©2015 ISBN 9783527335671

Language: English

Keywords: Electronic books. ; Handbooks and manuals. ; Electronic books. ; Electronic books. ; Electronic books. ; Handbooks and manuals. ; Electronic books. ; Electronic books. ; Handbooks and manuals.

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527337095

URL: Click to View

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527337095

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527337095

UID:

Format: XXVIII, 561 S. : , Ill., graph. Darst.

ISBN: 978-3-527-33567-1 , 978-3-527-33709-5

Additional Edition: Erscheint auch als Online-Ausgabe, EPUB ISBN 978-3-527-67955-3

Additional Edition: Erscheint auch als Online-Ausgabe, MOBI ISBN 978-3-527-67956-0

Additional Edition: Erscheint auch als Online-Ausgabe, PDF ISBN 978-3-527-67954-6

Language: English

Subjects: Chemistry/Pharmacy , Biology

Keywords: Laborgebäude ; Gebäudeplanung ; Haustechnik ; Laboreinrichtung ; Laborgerät ; Laboratorium ; Betriebsführung ; Nachhaltigkeit ; Arbeitssicherheit ; Laboratorium ; Sicherheit ; Laboratorium ; Bauen ; Laboratorium ; Technik

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Inhaltstext

UID:

Format: 1 online resource (592 pages)

Edition: 1st ed.

ISBN: 9783527679546

Note: Cover -- Title Page -- Copyright -- Contents -- List of Contributors -- Preface -- Part I Laboratory Building and Laboratory Equipment - Subjects of Laboratory Design of Building and Equipment -- Chapter 1 Introduction: Laboratory Typologies -- 1.1 Purpose -- 1.2 Science Direction -- 1.3 Fields of Activities -- 1.4 Working Methods -- 1.5 Physical Structure -- 1.5.1 What is the Conclusion Resulting from the Evaluation of the Lab Allocation Tree? -- 1.5.2 Use-Specific and Building-Related Needs and Requirements -- 1.5.3 Determination of the Areas for Independent Buildings or Special Components -- 1.5.4 Determination of the Areas as Restricted Areas -- 1.5.5 Areas with Locks and Access Area -- 1.5.6 Determination of Areas with Special Requirements Regarding Fire and Explosion Protection -- 1.5.7 Determination of Areas for the Laboratory Equipment -- 1.5.8 Determination of Areas for Special Laboratories -- 1.5.9 Determination of Standard Laboratory Areas -- 1.5.10 Conception Laboratory Building -- 1.6 Conclusion -- Chapter 2 Requirements and Determination of Requirements -- 2.1 Area Misuse through Wrong Grids -- 2.1.1 Determination of Requirements of Workplaces and Storage Space for Extra Equipment -- 2.1.2 Flexible Laboratory Space -- Chapter 3 Laboratory Concept and Workstations -- Chapter 4 Determination of User Needs - Goal-Oriented Communication between Planners and Users as a Basis for Sustainable Building -- 4.1 Work Areas -- 4.2 Work Flows and Room Groups -- Chapter 5 Corporate Architecture - Architecture of Knowledge -- 5.1 Image-The Laboratory as a Brand -- 5.2 Innovation- The Laboratory as the Origin of Knowledge -- 5.3 Excellence: The Laboratory as a Magnet for High Potentials -- Chapter 6 Scheduler Tasks in the Planning Process -- 6.1 Project Preparation -- 6.2 Integral Planning Teams -- 6.3 User Participation -- 6.4 Planning Process , 11.1.3.6 Vacuum Pumps -- 11.1.4 Routes -- 11.1.4.1 Air Ducts -- 11.1.5 Hazard Analysis -- 11.1.5.1 Equipment with Special Risks -- 11.1.5.2 Danger Symbols and Sources of Danger -- 11.1.5.3 Explosion Danger through Electrostatic Charge and Protection Measures -- 11.1.5.4 EMC -- 11.1.5.5 Regulations for Access to High-Voltage Laboratories -- 11.1.5.6 Noise Protection -- 11.1.5.7 Explanation: Trained Electrician -- 11.1.6 Instruction -- 11.1.6.1 Explanation: Electrotechnically Instructed Person -- 11.1.7 Behavior in Case of Electrical Accidents -- 11.2 Lightings -- 11.2.1 Lighting Systems -- 11.2.2 Illuminance Level -- 11.2.3 Lighting Control -- 11.2.4 Lighting Regulation -- 11.2.5 Emergency Lighting -- 11.3 Data Networks -- 11.3.1 Data Systems Technology -- 11.3.2 Fire Alarm System -- 11.3.3 Telephone System -- 11.3.4 Access Control -- 11.3.5 Miscellaneous -- 11.4 Central Building Control System -- 11.4.1 Nodal Points -- 11.4.1.1 Planning and Coordination across Trades and Disciplines -- 11.4.1.2 Signaling Devices and Warnings -- 11.4.2 Regulation -- 11.4.2.1 Air Volumes -- 11.4.3 Operating Modes -- 11.4.3.1 Operation -- 11.4.4 Monitoring -- Chapter 12 Service Systems via Ceiling -- 12.1 General Discussion -- 12.2 Flexible Laboratory Room Sizes/Configuration -- 12.2.1 Planning -- 12.2.2 Height -- 12.2.3 Width -- 12.2.4 Depth -- 12.2.5 Analytic/Composition Areas -- 12.2.6 Room within Room Solutions -- 12.2.7 Flexible Separation Walls -- 12.2.8 Reconfiguration due to Change in Work Content or Process -- 12.3 Major Differentiating Components -- 12.3.1 Ventilation -- 12.3.2 Lighting -- 12.3.3 Other Services -- 12.3.4 Prefabrication and Installation of Service Ceiling -- 12.3.5 3D CAD Design versus 2D Planning -- Chapter 13 Laboratory Logistics -- 13.1 Classic Systems -- 13.1.1 Drawbacks of Classic Systems , 13.2 Centralization and Implementation of Logistics Systems in the Building -- 13.2.1 Centralization -- 13.2.2 Vertical Linking of Several Laboratory Rinsing Rooms -- 13.2.3 Material Flow Systems -- 13.2.3.1 Consignment and Concentration of the Flow of Goods -- 13.3 Consignment and Automatic Storage Facilities -- 13.4 Solvents - Supply and Disposal Systems -- 13.4.1 Solvents Disposal Systems in the Pharmaceutical Sector -- 13.5 Laboratory Work 2030 - Objective? -- 13.6 From Small Areas to the Big Picture -- 13.7 Local Transport Systems -- 13.8 Supply and Disposal of Chemicals at the Workplace -- 13.9 Perspective -- Chapter 14 Animal Housing -- 14.1 General Points -- 14.2 Planning of an Animal Facility -- 14.3 SPF Management of Animals -- 14.4 Animal Management under SPF Status -- 14.5 Decentralized Connection of IVC -- 14.6 Central Connection -- 14.7 Extract Air -- 14.8 Supply through the Barrier -- 14.9 Quarantine -- 14.10 Open Animal Management without Hygiene Requirements -- 14.11 Experimental Animal Facility -- 14.12 Sustainability - An Issue in an Animal Facility? -- Chapter 15 Technical Research Centers - Examples of Highly Sophisticated Laboratory Planning Which Cannot be Schematized -- Chapter 16 Clean Rooms -- 16.1 Wall materials -- 16.2 Ceilings -- 16.3 Fixtures and fittings -- Chapter 17 Safety Laboratories -- 17.1 General Remark -- 17.2 Types of Safety Laboratories -- 17.2.1 Biological Safety Laboratory -- 17.2.2 Safety Laboratory for Radioactive Material = Isotope Laboratory -- 17.2.3 Safety Laboratories for Active and Highly Active Substances -- 17.3 Building Structures -- 17.3.1 Technical Equipment: Ventilation, Electrics, Media -- 17.3.2 Fittings -- Part III Laboratory Casework and Installations -- Chapter 18 Laboratory Casework -- 18.1 Design -- 18.2 Functionality and Flexibility -- 18.3 Trends , 6.5 Execution Phase -- 6.6 Commissioning -- 6.7 Conclusion -- 6.8 Best Practice -- 6.8.1 Project: Center for Free-Electron Laser Science CFEL, Hamburg-Bahrenfeld -- 6.8.2 Project: Max Planck Institute for Aging Biology, Cologne, Germany -- Chapter 7 Space for Communication in the Laboratory Building -- 7.1 Definition of Terms -- 7.2 Historical Development -- 7.3 Development in the Modern Age- Why and When Were These Ideal Conceptions Lost? -- 7.3.1 Why Is Communication Important in the Laboratory Building? -- 7.3.1.1 Communication Promotes Knowledge and Innovation -- 7.3.1.2 Communication and Safety in the Laboratory is Not a Contradiction -- 7.3.2 How Does Space for Communication Evolve? -- 7.4 Conclusion for Future Concepts -- Chapter 8 Fire Precautions -- 8.1 Preventive Fire Protection -- 8.1.1 Scope -- 8.1.1.1 Fire Protection -- 8.1.2 Legal Framework - Construction Law -- 8.1.3 Model Building Code -- 8.1.3.1 Walls, Ceilings, and Roofs -- 8.1.3.2 Ceilings, Roofs -- 8.1.3.3 Section 33 (MBC) -- 8.1.4 Special Building Codes -- 8.1.5 Other Rules and Regulations Including Structural Fire Protection Requirements for Laboratories -- 8.1.5.1 TRGS 526/BGR 120/BGI 850-0 -- 8.1.5.2 Escape and Rescue Routes -- 8.1.5.3 Doors -- 8.1.5.4 Shut-Off Valves -- 8.1.5.5 Fire Alarm Systems -- 8.1.5.6 Air Ventilation Units -- 8.2 Fire Protection Solution for Laboratory Buildings -- 8.3 Fire Protection Solutions for Laboratory Buildings - Examples -- 8.3.1 Classic Laboratory -- 8.3.2 Laboratory Units -- 8.3.3 Open Architecture Laboratories -- 8.3.4 Particular Cases -- 8.3.5 Problem of Existing Buildings -- Part II Layout of Technical Building Trades -- Chapter 9 Development in Terms of Building Technology and Requirements of Technical Building Equipment -- 9.1 Field of Research -- 9.2 Required Flexibility of Laboratory Areas , 9.3 Number of Floors, Height of the Floor, and Development Extent of the Laboratory Area (Laboratory Landscape) -- 9.4 Plumbing Services -- 9.5 Electrical Installation -- 9.6 Ventilation -- 9.7 Determination and Optimization of the Air Changes Quantities and Definition of Air Systems Required -- 9.8 Creation of an Energy-Optimized Duct System -- Chapter 10 Ventilation and Air Conditioning Technology -- 10.1 Introduction -- 10.1.1 General Note -- 10.2 Air Supply of Laboratory Rooms -- 10.2.1 Extract Systems -- 10.2.2 Removal of Room Cooling Load -- 10.2.3 Supply Air -- 10.3 Air-Flow Routing in the Room -- 10.3.1 Mixed Ventilation -- 10.3.2 Displacement Ventilation -- 10.4 Numerical Flow Simulation (Computational Fluid Dynamics (CFD)) -- 10.4.1 Case Example 1: Comparison of Supply-Air Systems: Swirl Diffuser + Ceiling Sail/Textile Diffuser -- 10.4.2 Case Example 2: Comparison of Supply-Air Systems: Swirl Diffuser, Flush with the Ceiling/Displacement Diffuser on the Ceiling -- 10.4.3 Case Example 3: Ventilation Optimization of a Model Lab Room -- 10.4.4 Case Example 4: Laboratory for Laser Physics (Fritz-Haber-Institute Berlin) -- 10.5 Energy-Efficient Systems Engineering -- 10.5.1 Fans -- 10.5.2 Heat Recovery -- 10.5.3 Humidity Treatment of Supply Air -- 10.6 Installation Concepts for Laboratory Buildings from the Point of View of Ventilation and Air-Conditioning Planning -- 10.6.1 Arrangement of the Central Ventilation Unit in the Building -- 10.6.2 Central Units -- 10.6.3 Vertical Access -- 10.6.4 Horizontal Access -- Chapter 11 Electrical Installations -- 11.1 Power Supply -- 11.1.1 General Distribution -- 11.1.2 Shutdowns -- 11.1.2.1 Emergency Shutdown -- 11.1.3 Consumers -- 11.1.3.1 Plug Connections -- 11.1.3.2 Switches and Sockets -- 11.1.3.3 Motors -- 11.1.3.4 Rotational Speed Control with Frequency Converter -- 11.1.3.5 Pumps , Chapter 19 Work Benches, Sinks, Storage, Supply- and Disposal Systems

Additional Edition: Print version Dittrich, Egbert The Sustainable Laboratory Handbook Newark : John Wiley & Sons, Incorporated,c2015 ISBN 9783527335671

Language: English

Keywords: Electronic books ; Electronic books

URL: FULL  ((OIS Credentials Required))

URL: FULL  ((OIS Credentials Required))