Muutke küpsiste eelistusi

E-raamat: Guidelines for Laboratory Design: Health, Safety, and Environmental Considerations

3.00/5 (4 hinnangut Goodreads-ist)
(Massachusetts General Hospital), (Payette Associates), (DiHarvard School of Public Health), (Harvard University), (Polaroid Corporation)
  • Formaat: PDF+DRM
  • Ilmumisaeg: 06-Mar-2013
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781118633885
Teised raamatud teemal:
  • Formaat - PDF+DRM
  • Hind: 164,19 €*
  • * hind on lõplik, st. muud allahindlused enam ei rakendu
  • Lisa ostukorvi
  • Lisa soovinimekirja
  • See e-raamat on mõeldud ainult isiklikuks kasutamiseks. E-raamatuid ei saa tagastada.
  • Raamatukogudele
Guidelines for Laboratory Design: Health, Safety, and Environmental ConsiderationsSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 06-Mar-2013
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781118633885
Teised raamatud teemal:

DRM piirangud

  • Kopeerimine (copy/paste):

    ei ole lubatud

  • Printimine:

    ei ole lubatud

  • Kasutamine:

    Digitaalõiguste kaitse (DRM)
    Kirjastus on väljastanud selle e-raamatu krüpteeritud kujul, mis tähendab, et selle lugemiseks peate installeerima spetsiaalse tarkvara. Samuti peate looma endale  Adobe ID Rohkem infot siin. E-raamatut saab lugeda 1 kasutaja ning alla laadida kuni 6'de seadmesse (kõik autoriseeritud sama Adobe ID-ga).

    Vajalik tarkvara
    Mobiilsetes seadmetes (telefon või tahvelarvuti) lugemiseks peate installeerima selle tasuta rakenduse: PocketBook Reader (iOS / Android)

    PC või Mac seadmes lugemiseks peate installima Adobe Digital Editionsi (Seeon tasuta rakendus spetsiaalselt e-raamatute lugemiseks. Seda ei tohi segamini ajada Adober Reader'iga, mis tõenäoliselt on juba teie arvutisse installeeritud )

    Seda e-raamatut ei saa lugeda Amazon Kindle's. 

Proven and tested guidelines for designing ideal labs for scientific investigations

Now in its Fourth Edition, Guidelines for Laboratory Design continues to enable readers to design labs that make it possible to conduct scientific investigations in a safe and healthy environment. The book brings together all the professionals who are critical to a successful lab design, discussing the roles of architects, engineers, health and safety professionals, and laboratory researchers. It provides the design team with the information needed to ask the right questions and then determine the best design, while complying with current regulations and best practices.

Guidelines for Laboratory Design features concise, straightforward advice organized in an easy-to-use format that facilitates the design of safe, efficient laboratories. Divided into five sections, the book records some of the most important discoveries and achievements in:





Part IA, Common Elements of Laboratory Design, sets forth technical specifications that apply to most laboratory buildings and modules Part IB, Common Elements of Renovations, offers general design principles for the renovation and modernization of existing labs Part II, Design Guidelines for a Number of Commonly Used Laboratories, explains specifications, best practices, and guidelines for nineteen types of laboratories, with three new chapters covering nanotechnology, engineering, and autopsy labs Part III, Laboratory Support Services, addresses design issues for imaging facilities, support shops, hazardous waste facilities, and laboratory storerooms Part IV, HVAC Systems, explains how to heat, cool, and ventilate labs with an eye towards energy conservation Part V, Administrative Procedures, deals with bidding procedures, final acceptance inspections, and sustainability

The final part of the book features five appendices filled with commonly needed data and reference materials.

This Fourth Edition is indispensable for all laboratory design teams, whether constructing a new laboratory or renovating an old facility to meet new objectives.

Arvustused

In summary, this edition of the book addresses a broad spectrum of end users including administrators, researchers, instructors, engineers, and environment health officers. The book is a useful comprehensive reference for academic institutions, but perhaps not for individual instructors.  (Journal of Chemical Education, 1 January 2014)

Foreword xv
Preface xvii
Acknowledgments xix
About The Authors xxi
Abbreviations xxiii
Units xxv
Organizations Referenced xxvii
Introduction xxix
How to Use This Book xxx
Book Organization xxxi
Computational Fluid Dynamics xxxiii
PART IA COMMON ELEMENTS OF LABORATORY DESIGN
1(108)
1 Building Considerations
3(62)
1.1 Guiding Concepts
3(1)
1.2 Building Layout
3(41)
1.3 Guiding Principles for Building Heating, Ventilating, and Air-Conditioning Systems
44(7)
1.4 Guiding Concepts for Laboratory Building Loss Prevention, Industrial Hygiene, and Personal Safety
51(5)
1.5 Miscellaneous Services
56(9)
2 Laboratory Considerations
65(44)
PART IB COMMON ELEMENTS OF RENOVATIONS
109(32)
3 Renovations: Building Considerations
123(13)
3.1 Guiding Concepts
123(2)
3.2 Building Layout
125(4)
3.3 Heating, Ventilating, and Air-Conditioning Systems
129(4)
3.4 Loss Prevention, Industrial Hygiene, and Personal Safety
133(1)
3.5 Miscellaneous Services
134(2)
4 Renovations: Laboratory Considerations
136(5)
4.1 Guiding Concepts
136(1)
4.2 Laboratory Layout
137(1)
4.3 Heating, Ventilating, and Air-Conditioning Systems
138(1)
4.4 Loss Prevention, Industrial Hygiene, and Personal Safety
138(3)
PART II DESIGN GUIDELINES FOR A NUMBER OF COMMONLY USED LABORATORIES
141(184)
5 General or Analytical Chemistry Laboratory
143(7)
5.1 Description
143(1)
5.2 Laboratory Layout
144(2)
5.3 Heating, Ventilating, and Air-Conditioning
146(3)
5.4 Loss Prevention, Industrial Hygiene, and Personal Safety
149(1)
5.5 Special Requirements
149(1)
6 High-Toxicity Laboratory
150(6)
6.1 Description
150(1)
6.2 Laboratory Layout
151(2)
6.3 Heating, Ventilating and Air-Conditioning
153(1)
6.4 Loss Prevention, Industrial Hygiene, and Personal Safety
154(1)
6.5 Special Requirements
155(1)
7 Nanotechnology Laboratories
156(4)
7.1 Description
156(1)
7.2 Laboratory Layout
156(1)
7.3 Heating, Ventilating and Air-Conditioning
157(1)
7.4 Loss Prevention, Industrial Hygiene, and Personal Safety
158(2)
8 Engineering Laboratories
160(13)
8.1 Description
160(1)
8.2 Engineering Disciplines and Some of Their Most Common Laboratory Types
160(1)
8.3 Wind Tunnel Laboratory
161(1)
8.4 Jet and Rocket Propulsion Laboratory
162(2)
8.5 Hydraulics Laboratory
164(1)
8.6 Material Analysis and Testing Laboratory
165(1)
8.7 Electrical Circuits, Motor, and Generators Laboratory
165(2)
8.8 Foundry Laboratory
167(2)
8.9 Internal Combustion and Gas Turbine Engine Laboratory
169(4)
9 Pilot Plant: Chemical, Engineering, and Biological
173(4)
9.1 Description
173(1)
9.2 Pilot Plant Layout
174(1)
9.3 Heating, Ventilating, and Air-Conditioning
174(1)
9.4 Loss Prevention, Industrial Hygiene, and Personal Safety
175(1)
9.5 Special Requirements
175(2)
10 Physics Laboratory
177(5)
10.1 Description
177(1)
10.2 Laboratory Layout
178(1)
10.3 Heating, Ventilating, and Air-Conditioning
179(1)
10.4 Loss Prevention, Industrial Hygiene, and Personal Safety
179(2)
10.5 Special Requirements
181(1)
11 Controlled Environment Room: Hot or Cold
182(5)
11.1 Description
182(1)
11.2 Laboratory Layout
183(1)
11.3 Heating, Ventilating, and Air-Conditioning
183(2)
11.4 Loss Prevention
185(1)
11.5 Special Requirements
185(2)
12 High-Pressure Laboratory
187(3)
12.1 Description
187(1)
12.2 Laboratory Layout
188(1)
12.3 Heating, Ventilating, and Air-Conditioning
188(1)
12.4 Loss Prevention, Industrial Hygiene, and Personal Safety
189(1)
12.5 Special Requirements
189(1)
13 Radiation Laboratory
190(6)
13.1 Description
190(1)
13.2 Laboratory Layout
191(3)
13.3 Heating, Ventilating, and Air-Conditioning
194(1)
13.4 Loss Prevention, Industrial Hygiene, and Personal Safety
195(1)
13.5 Special Considerations
195(1)
14 Biosafety Laboratory
196(20)
14.1 Description
196(6)
14.2 Laboratory Layout
202(10)
14.3 Heating, Ventilating, and Air-Conditioning
212(1)
14.4 Loss Prevention, Industrial Hygiene, and Personal Safety
213(1)
14.5 Special Requirements
213(3)
15 Clinical Laboratories
216(11)
15.1 Description
216(2)
15.2 Laboratory Layout
218(4)
15.3 Heating, Ventilating, and Air-Conditioning
222(1)
15.4 Loss Prevention, Industrial Hygiene, and Personal Safety
223(4)
16 Teaching Laboratory
227(11)
16.1 Description
227(1)
16.2 Laboratory Layout
228(6)
16.3 Heating, Ventilating, and Air-Conditioning
234(1)
16.4 Loss Prevention, Industrial Hygiene, and Personal Safety
235(3)
17 Gross Anatomy Laboratory
238(8)
17.1 Description
238(1)
17.2 Laboratory Layout
239(4)
17.3 Heating, Ventilating, and Air-Conditioning
243(1)
17.4 Loss Prevention, Industrial Hygiene, and Personal Safety
244(1)
17.5 Security
245(1)
18 Pathology Laboratory
246(7)
18.1 Description
246(3)
18.2 Laboratory Layout
249(2)
18.3 Heating, Ventilating, and Air-Conditioning
251(1)
18.4 Loss Prevention, Industrial Hygiene, and Personal Safety
251(1)
18.5 Special Requirements
252(1)
19 Autopsy Laboratory
253(9)
19.1 Description
253(2)
19.2 Laboratory Layout
255(5)
19.3 Heating, Ventilating, and Air-Conditioning
260(1)
19.4 Loss Prevention, Industrial Hygiene, and Personal Safety
261(1)
20 Morgue Facility
262(9)
20.1 Description
262(3)
20.2 Laboratory Layout
265(4)
20.3 Heating, Ventilating, and Air-Conditioning
269(1)
20.4 Loss Prevention, Industrial Hygiene, and Personal Safety
269(2)
21 Open or Team Research Laboratory
271(6)
21.1 Description
271(1)
21.2 Laboratory Layout
272(3)
21.3 Heating, Ventilating, and Air-Conditioning
275(1)
21.4 Loss Prevention, Industrial Hygiene, and Personal Safety
275(1)
21.5 Special Considerations
276(1)
22 Animal Research Laboratory
277(22)
22.1 Description
277(2)
22.2 Laboratory Layout
279(13)
22.3 Heating, Ventilating, and Air-Conditioning
292(4)
22.4 Loss Prevention, Industrial Hygiene, and Personal Safety
296(1)
22.5 Special Requirements
297(2)
23 Microelectronics and Cleanroom Laboratories
299(16)
23.1 Description
299(4)
23.2 Laboratory Layout
303(4)
23.3 Heating, Ventilating, and Air Conditioning
307(3)
23.4 Loss Prevention, Industrial Hygiene, and Personnel Safety
310(2)
23.5 Special Requirements
312(2)
23.6 Renovations
314(1)
24 Printmaking Studio
315(10)
24.1 Description
315(2)
24.2 Print Studio Layout
317(1)
24.3 Heating, Ventilating, and Air-Conditioning
318(3)
24.4 Loss Prevention, Industrial Hygiene, and Personal Safety
321(4)
PART III LABORATORY SUPPORT SERVICES
325(44)
25 Imaging and Photographic Facilities
327(12)
25.1 Introduction
327(4)
25.2 Photographic And Imaging Facility Layouts
331(3)
25.3 Heating, Ventilating, and Air-Conditioning
334(2)
25.4 Loss Prevention, Industrial Hygiene, and Personal Safety
336(1)
25.5 Special Requirements
337(2)
26 Support Shops
339(9)
26.1 Description
339(1)
26.2 Layout
340(4)
26.3 Heating, Ventilating, and Air-Conditioning
344(2)
26.4 Loss Prevention, Industrial Hygiene, and Personal Safety
346(1)
26.5 Special Requirements
346(2)
27 Hazardous Chemical, Radioactive, and Biological Waste-Handling Rooms
348(12)
27.1 Guiding Concepts
348(3)
27.2 Layout
351(5)
27.3 Heating, Ventilating, and Air-Conditioning
356(2)
27.4 Loss Prevention Industrial Hygiene, and Personal Safety
358(1)
27.5 Special Requirements
358(2)
28 Laboratory Storerooms
360(9)
28.1 Description
360(3)
28.2 Layout
363(3)
28.3 Heating, Ventilating, and Air-Conditioning
366(1)
28.4 Loss Prevention, Industrial Hygiene, and Personal Safety
367(1)
28.5 Special Requirements
368(1)
PART IV HVAC SYSTEMS
369(82)
29 HVAC Systems
371(21)
29.1 Description
371(1)
29.2 Air-Conditioning Systems
371(5)
29.3 HVAC System Design and Description
376(1)
29.4 System Descriptions and Strategies
377(9)
29.5 Humidification and Dehumidification
386(3)
29.6 Space Pressure Control
389(2)
29.7 Automatic Control System
391(1)
30 Fans
392(5)
30.1 Fan Terminology
392(1)
30.2 Exhaust Fan Specifications
393(1)
30.3 Atmospheric Dispersion
394(1)
30.4 Fan Laws
394(1)
30.5 Fan Selection
395(1)
30.6 Fan Performance
396(1)
31 Air Cleaning
397(7)
31.1 Introduction
397(1)
31.2 Air-Cleaning Equipment for Laboratories
398(6)
32 Laboratory Hoods and Other Exhaust Air Contaminant-Capture Facilities and Equipment
404(18)
32.1 Introduction
404(1)
32.2 Conventional Bypass Chemical Fume Hoods
405(4)
32.3 Auxiliary Air Chemical Fume Hoods
409(2)
32.4 Perchloric Acid Fume Hoods
411(1)
32.5 Hoods for Work With Radioactive Materials
411(1)
32.6 Variable Air-Volume Hoods
411(1)
32.7 High-Performance Hoods
412(1)
32.8 Gloveboxes
412(1)
32.9 Biological Safety Cabinets
413(3)
32.10 Capture (Exterior) Hoods
416(1)
32.11 Ductless Hoods
416(4)
32.12 Performance Tests
420(2)
33 Exhaust Air Ducts and Accessories
422(4)
33.1 Introduction
422(1)
33.2 Exhust Duct Considerations
423(1)
33.3 Exhust System Classification
424(1)
33.4 Duct Accessories
424(2)
34 Variable-Air-Volume Systems
426(10)
34.1 Introduction
426(1)
34.2 VAV Hoods
427(1)
34.3 Good Design Practices for Vav Systems
428(1)
34.4 Variable-Volume Exhaust System Operational Concept
428(1)
34.5 VAV System Controls and Components
429(2)
34.6 VAV System Fan Controls and Components
431(3)
34.7 VAV System Duct Configurations
434(2)
35 Energy Conservation
436(15)
35.1 Introduction
436(1)
35.2 Recent Trends
437(3)
35.3 Exhaust Ventilation for Contamination Control
440(8)
35.4 Lighting
448(1)
35.5 Thermal Insulation
448(1)
35.6 Humidity Control
448(1)
35.7 Evaporative Cooling
449(1)
35.8 Water Conservation
449(1)
35.9 Efficient Operating Strategies
449(2)
PART V ADMINISTRATIVE PROCEDURES
451(30)
36 Project Execution and Bidding Procedures
453(7)
36.1 Guiding Concepts
453(1)
36.2 Implementation
454(2)
36.3 Bid Form
456(1)
36.4 Contract
457(1)
36.5 Change Orders
457(1)
36.6 Construction Inspections
458(1)
36.7 Punch List
458(1)
36.8 Additional Testing and Acceptance
458(1)
36.9 Beneficial Occupancy
459(1)
36.10 Final Acceptance and Commissioning
459(1)
37 Commissioning and Final Acceptance Criteria
460(11)
37.1 Guiding Concepts
460(1)
37.2 Design, Construction, and Preoccupancy Checklists
460(2)
37.3 Heating, Ventilating, and Air-Conditioning
462(4)
37.4 Loss Prevention, Industrial Hygiene, and Personal Safety
466(1)
37.5 Project Commissioning
467(4)
38 Sustainable Laboratory Design
471(10)
38.1 Introduction
471(1)
38.2 Laboratory Construction Materials
472(2)
38.3 Heating, Ventilating, and Air-Coniditioning
474(3)
38.4 Loss Prevention, Industrial Hygiene, and Personal Safety
477(1)
38.5 Miscellaneous Services
477(1)
38.6 Lighting
478(1)
38.7 Submetering
479(1)
38.8 Additional Background Material
479(2)
PART VI APPENDIXES
481(19)
Appendix A Emergency Showers
483(2)
Appendix B Emergency Eyewash Units
485(1)
Appendix C Signs
486(3)
Appendix D Stack Design
489(6)
Appendix E Matrix of Building Consideration for Specific Laboratory Types
495(5)
References 500(9)
Index 509
LOUIS J. DiBERARDINIS, BS, MS, CIH, CSP, is the Director of Environment, Health, and Safety at MIT. He is a visiting lecturer at Harvard University School of Public Health and Adjunct Professor at the University of Massachusetts Lowell in the Department of the Work Environment. He received his BS in chemical engineering from Northeastern University and an MS in industrial hygiene from Harvard University.

JANET S. BAUM, BS, MArch, AiA, currently teaches part-time at Harvard University School of Public Health and at both the Graduate School of Architecture and Urban Design and the Institute of Public Health, Washington University in St. Louis. She earned her BS in architectural sciences at Washington University in St. Louis and her master of architecture at Harvard University Graduate School of Design.

The late MELVIN W. FIRST, ScD, CIH, PE, was a researcher and professor of environmental health Engineering at the Harvard School of Public Health for almost sixty years and was actively involved in research until a week before his death.

GARI T. GATWOOD, BSME, CSP (retired), is a consultant in safety engineering. He has forty years of safety experience in missile defense, commercial chemicals, laboratories, and university programs. He holds a degree in mechanical engineering from the Missouri School of Mines and Metallurgy in Rolla, Missouri.

Anand K. Seth, BS, MS, PE, CEM, CPE, is currently an Engineering Principal in Cannon Design, an international architectural/engineering firm. Seth worked at Massachusetts General Hospital as director of engineering and at Harvard University. He holds a master of science in mechanical engineering from the University of Maine and has done postgraduate work at other universities.
Lisainfo e-raamatute kohta Lisainfo e-raamatute kohta
Püsilink: https://www.kriso.ee/db/97811186338852e.html
Märksõnad: