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Laboratory Design Handbook describes the process, motivation, constraints, challenges, opportunities, and specific design data related to the creation of a modern research laboratory. The information presented is based on a large pool of experience in the development of new and renovated laboratory buildings for universities, teaching hospitals, ph
"Reference manual for planning, design, and operation of laboratory HVAC systems to reduce the laboratory's energy footprint while ensuring safety, providing good comfort and indoor air quality, and protecting the integrity of experiments; includes online access to electronic design tools that illustrate features of laboratories and provide practical design aids"--
The first comprehensive guide to modern laboratory planning in ten years to address both construction and operating aspects. Many of the 30 authors are affiliated 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 production facilities. The next section of the book deals with the installation of laboratory equipment, including storage and emergency facilities, while the final parts address safety and sustainability standards applicable to laboratories, as well as facility management and optimization during normal laboratory operation. The relevant norms and standards are cited throughout, and examples from recent construction sites are also presented. Hundreds of photographs and drawings, many in full color, provide visual examples of the design and building concepts. As a result, readers will learn how to construct and maintain efficient and long-serving laboratory spaces with a minimum of maintenance costs and a maximum of safety. An invaluable, practical guide for planners, builders and managers of chemical, biological and medical research laboratories of any size.
Laboratory facilities are complex, technically sophisticated, and mechanically intensive structures that are expensive to build and to maintain. Hundreds of decisions must be made before and during new construction or renovation that will determine how successfully the facility will function when completed and how successfully it can be maintained once put into service. This book provides guidance on effective approaches for building laboratory facilities in the chemical and biochemical sciences. It contains both basic and laboratory-specific information addressed to the user communityâ€"the scientists and administrators who contract with design and construction experts. The book will also be important to the design and construction communitiesâ€"the architects, laboratory designers, and engineers who will design the facility and the construction personnel who will build itâ€"to help them communicate with the scientific community for whom they build laboratory facilities.
Laboratory Design Guide 3rd edition is a complete guide to the complex process of laboratory design and construction. With practical advice and detailed examples, it is an indispensable reference for anyone involved in building or renovating laboratories. In this working manual Brian Griffin explains how to meet the unique combination of requirements that laboratory design entails. Considerations range from safety and site considerations to instrumentation and special furniture, and accommodate the latest laboratory practices and the constant evolution of science. Case studies from around the world illustrate universal principles of good design while showing a variety of approaches. Revised throughout for this new edition, the book contains a brand new chapter on the role of the computer, covering topics such as the virtual experiment, hot desking, virtual buildings and computer-generated space relationship diagrams. There are also 10 new international case studies, including the Kadoorie Biological Sciences Building at the University of Hong Kong.
DESIGN and PLANNING of Research and Clinical LABORATORYFACILITIES In this primer/professional reference, Leonard Mayer demystifiesone of the most complex architectural specialties. An architectwith more than thirty-three years' experience as a master plannerand programmer of laboratories and clinical facilities, Mr. Mayeroffers a comprehensive overview of the fundamental issues relatedto laboratory planning and design. He also provides designers witha clear and rational framework through which to approach thishighly challenging and rewarding design specialty. A superblearning tool for students and professionals just getting startedin lab design and a valuable one-volume reference for theexperienced professional, Design and Planning of Research andClinical Laboratory Facilities features: * Step-by-step guidance through the complex maze of codes,specifications, standards, and official guidelines, relating to theplanning, design, and construction processes * New and updated design criteria based on the most recent laws andregulations * Master plans, facility programs, functional programs andrequirements programs for a wide variety of scientific and medicaldisciplines and support facilities * Comprehensive lists of relevant codes, regulations, standards,guidelines, and important architectural, structural, mechanical,electrical, and plumbing criteria Research and clinical laboratory facilities are, perhaps, the mostcomplex structures to plan and design. Intimidated by a vast andseemingly impenetrable body of codes, regulations, and designcriteria pertaining to lab design and construction, manyarchitects, unfortunately, choose to avoid what can be one of themost profitable and professionally rewarding areas ofspecialization. Written by an architect with more than thirty-three years ofexperience as a master planner and programmer of laboratories andclinical facilities, this book demystifies the process oflaboratory planning and design. It provides a comprehensiveoverview of the fundamental issues related to laboratory design andoffers readers detailed, step-by-step guidance through the complexmaze of design specifications and codes, standards, and officialguidelines that must be addressed during the programming, planning,design, and construction process. Focusing mainly on laboratory programming, planning, and designcriteria for "wet" laboratory environments, Leonard Mayer providesexamples from numerous master plans, facility programs, functionalprograms and requirements programs applicable to a wide variety ofscientific and medical disciplines, and related facilities. Relatedfunctions and activities include administrative offices, computercenters, core service and support, building services facilities,and more. He presents new and updated design criteria based onrecent laws and regulations and supplies readers with comprehensivelists of relevant codes, regulations, standards, guidelines, andarchitectural, structural, mechanical, electrical, and plumbingcriteria. Design and Planning of Research and Clinical Laboratory Facilitiesis an excellent primer for architecture students and newcomers tothe field, as well as an indispensable single-volume reference forexperienced professionals. It is also an invaluable resource forresearchers and investigators, facility planners and managers,plant engineers, and all others involved with the design,construction, maintenance, and administration of laboratoryfacilities.
Laboratory Design Guide 3rd edition is a complete guide to the complex process of laboratory design and construction. With practical advice and detailed examples, it is an indispensable reference for anyone involved in building or renovating laboratories. In this working manual Brian Griffin explains how to meet the unique combination of requirements that laboratory design entails. Considerations range from safety and site considerations to instrumentation and special furniture, and accommodate the latest laboratory practices and the constant evolution of science. Case studies from around the world illustrate universal principles of good design while showing a variety of approaches. Revised throughout for this new edition, the book contains a brand new chapter on the role of the computer, covering topics such as the virtual experiment, hot desking, virtual buildings and computer-generated space relationship diagrams. There are also 10 new international case studies, including the Kadoorie Biological Sciences Building at the University of Hong Kong.
This comprehensive reference by a senior architect at the EPA covers guidelines for site selection, the design of complete facilities (including sustainable labs) and individual lab rooms, and strategic master planning for architects, engineers, and project managers as well as those who commission, operate, and manage laboratories at every level from schools to industry.
By achieving a delicate balance between systems and practices, proper laboratory biosecurity reduces the risk of legitimate bioscience facilities becoming sources of pathogens and toxins for malicious use. Effective design and implementation of laboratory biosecurity depends on cooperation among individuals from diverse communities, including scien
During the past two decades, many books, governmental reports and regu lations on safety measures against chemieals, fire, microbiological and radioactive hazards in laboratories have been published from various coun tries. These topics have also been briefly discussed in books on laboratory planning and management. The application ofvarious scientific instruments based on different ionizing and non-ionizing radiations have brought new safety problems to the laboratory workers of today, irrespective of their scientific disciplines, be they medicine, natural or life sciences. However, no comprehensive laboratory handbook dealing with aIl these hazards, some of which are recently introduced, had so far been available in a single volume. Therefore, it was thought worthwhile to publish this Handbook on safety and health measures for laboratories, with contributions from several experts on these subjects. As this second edition of the Handbook, like the first edition, is a multiauthor volume, some duplication in conte nt among chapters is unavoidable in order to maintain the context of a chapter as weIl as make each chapter complete. An attempt has also been made to maintain the central theme, which is how to work in a laboratory with maximum possible environmental safety.