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Notes in Neuroanaesthesia and Critical Care 1st Edition by Arun K Gupta, Andrew C Summors ISBN 1841100358 9781841100357

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Author(s): A.K. Gupta, Arun K. Gupta, Andrew C. Summors
ISBN(s): 9781841100357, 1841100358
Edition: 1
File Details: PDF, 2.15 MB
Year: 2001
Language: english
SKU: EB-1099284 Category: Tags: , ,

Notes in Neuroanaesthesia and Critical Care 1st Edition by Arun K Gupta, Andrew C Summors – Ebook PDF Instant Download/Delivery: 1841100358, 9781841100357
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ISBN 10: 1841100358 
ISBN 13: 9781841100357
Author: Arun K Gupta, Andrew C Summors

This book provides an easy-to-read introduction to the many topics in neuroanaesthesia for postgraduate trainees undertaking a neuro-module as part of their training. It is designed to be comprehensive but concise and as such will be an ideal complement to the Textbook of Neuroanaesthesia and Critical care as well as a useful ‘aide memoire’ for examination candidates. It will also serve as a useful quick reference for other ICU staff such as critical care nurses or ODA’s.

Notes in Neuroanaesthesia and Critical Care 1st Table of contents:

Chapter 1 Building Emissions and Climate Change
1.1 The Greenhouse Effect
1.2 Effects of Anthropogenic Emissions on Climate Change
1.3 Effects of Climate Change
1.4 Greenhouse Gas Emissions from Buildings
1.4.1 Operation Emissions (Oe)
1.4.2 Embodied Emissions (Ee)
1.5 Carbon-Neutral Architectural Design
1.6 Regenerative Design in Architecture
1.7 Circular Economy
1.8 Adaptation, Mitigation, and Resilience
Chapter 2 Toward Carbon-Neutral Architecture
2.1 Carbon-Neutral Architectural Design Process
2.1.1 Operation
2.1.2 Construction
2.1.3 Water
2.1.4 Waste
2.2 Carbon-Neutral Architectural Design in Academia
2.2.1 Carbon-Neutral Architectural Design Process in Beginning-Year Studios
2.2.2 Carbon-Neutral Architectural Design Process in Lecture Courses
2.2.3 Carbon-Neutral Architectural Design Process in Advanced Studios
2.3 Design and Practice: The Pamo Valley Project
2.4 Design and Research: The Greenkit
2.5 Teaching Design and Social Responsibility: Shelter Work in Mexico
2.5.1 Tijuana Affordable Housing Project
2.5.2 Cerro Azul Community Center
2.5.3 Casa Dignidad: A Community Center for Barranquitas
2.6 Toward Carbon Neutrality in Practice
2.6.1 Social Sustainability in Practice: Nueva Democracia
2.6.2 Carbon Neutrality: El Dispositivo Habitable in Tenerife
2.7 Inclusion and Self-Sufficiency
2.7.1 Inclusion
2.7.2 Self-Sufficiency and Regenerative Design
Chapter 3 Thermal Comfort
3.1 Psychrometrics
3.2 Thermal Comfort
3.2.1 Heat Balance
3.2.2 Variables that Affect Thermal Comfort
3.3 Environmental and Comfort Indices
3.4 Comfort Models
3.4.1 Physiological Comfort Model
3.4.2 Adaptive Comfort Model
3.5 The Perception of Comfort
3.6 Designing for Outdoor Thermal Comfort
3.6.1 Improving Outdoor Thermal Comfort in Hot and Dry Climates
3.6.2 Improving Outdoor Thermal Comfort in a Hot and Humid Climate
Chapter 4 Climate and Architecture
4.1 Climate
4.2 Climate and Architecture
4.3 Climate Zones
4.4 Climate Zones and Energy Codes
4.5 Climate Analysis
4.5.1 Building Bioclimatic Chart
4.5.2 Givoni’s Building Bioclimatic Chart
4.5.3 Digital Climate Analysis Tools
4.5.4 CLIMATESCOUT®
4.5.5 The Comfort Triangles Chart
4.6 Vernacular Architecture and Traditional Ecological Knowledge
4.6.1 Vernacular Architecture in Warm, Humid Climates
4.6.2 Vernacular Architecture in Hot and Dry Climates
4.6.3 Vernacular Architecture in Temperate Climates
4.6.4 Mid-Century Los Angeles Architecture: an Example for a Temperate Climate
4.6.5 Vernacular Architecture in the Cold Climates
4.7 Conclusions
Chapter 5 Building Design and Solar Geometry
5.1 The Sun in the Sky Vault
5.1.1 Solar Declination and Hour Angle
5.1.2 Solar Azimuth and Altitude
5.2 Solar Charts
5.2.1 Vertical Sun Path Diagram
5.2.2 Horizontal Sun Path Diagram
5.3 Shading the Building
5.4 Shading Design for the Windows
5.4.1 Horizontal Shadow Angle
5.4.2 Vertical Shadow Angle
5.4.3 Shadow Angle Protractor
5.4.4 Example Design Process to Shade a South-Facing Window
5.4.5 Example Design of a Shading for a Southeast-Facing Window
5.5 Sundials
5.6 Site Analysis
5.7 Façade Orientation
5.8 Using Shadow Angles as a Design Tool
5.9 Calculating the Impact of Radiation on Surfaces
5.10 Envelope and Shade
5.11 Parametric Design
Chapter 6 Daylight Design in Buildings
6.1 Importance of Daylight
6.2 Measuring Light
6.2.1 Luminous Flux
6.2.2 Luminous Intensity (I)
6.2.3 Illuminance
6.2.4 Luminance
6.3 Light and Optical Control
6.4 Color of Light
6.5 Types of Sky
6.6 The Eye and Factors that Affect the Visual Task
6.6.1 Object or Task
6.6.2 Lighting Conditions
6.6.3 The Observer
6.7 Design with Daylight
6.7.1 Form of the Building
6.7.2 Side Lighting
6.7.3 Top Lighting
6.8 Daylight Simulation Workflows
6.8.1 Concept Phase
6.8.2 Schematic Design
6.8.3 Design Development
6.8.4 Construction Administration
6.8.5 Occupancy
6.9 Daylight Considerations
Chapter 7 Heat Exchange through the Building Envelope
7.1 Heat Transfer through the Building Envelope
7.2 Heat Transfer in Buildings
7.2.1 Sensible Heat
7.2.2 Latent Heat
7.2.3 Radiant Heat
7.3 Heat Transfer by Conduction
7.3.1 Conductivity
7.3.2 Conductance
7.3.3 Resistance
7.3.4 Thermal Transmittance (U-Value)
7.3.5 Heat Capacity and Specific Heat Capacity
7.3.6 Time Lag
7.3.7 Decrement Factor
7.3.8 Heat Flow by Conduction
7.4 Heat Transfer by Radiation
7.4.1 Concepts
7.4.2 Effects of Solar Radiation
7.4.3 Opaque Components
7.5 Heat Transfer by Convection
7.5.1 Definition
7.5.2 Air Movement and Infiltration
7.5.3 Regulating the Air Exchange Rate
7.6 Building Performance Simulation
7.6.1 Types of Building Performance Simulation
7.6.2 Performance Simulations in the Design Process
7.6.4 Emphasizing “Design” in the Design Simulation Process
Chapter 8 Passive Cooling in Buildings
8.1 Definition of Passive Cooling Systems
8.2 Classification of Passive Cooling Systems
8.3 Ambient Air as a Heat Sink (Sensible Component)
8.3.1 Natural Ventilation
8.3.2 Night Ventilation
8.3.3 Smart Ventilation
8.3.4 Effect of Shading on Smart Ventilation
8.4 Evaporative Cooling. Ambient Air as a Heat Sink (Latent Component)
8.4.1 Direct Evaporative Cooling
8.4.2 Indirect Evaporative Cooling
8.5 The Upper Atmosphere as a Heat Sink: Radiant Cooling
8.5.1 Principles of a Radiant Cooling System
8.5.2 UCLA Radiant Cooling System
8.5.3 Zomeworks Double-Play System
8.6 The Earth as a Heat Sink: Earth Coupling
8.6.1 Ground Cooling of the Building by Direct Contact
8.6.2 Ground Cooling of the Building by Earth-to-Air Heat Exchangers
8.6.3 Water-to-Air Heat Exchangers
8.6.4 Cooling the Earth
8.7 Applicability of Passive Cooling Systems
Chapter 9 Nature-Based Cooling with Living Roofs
9.1 Green Roof Cooling with Night Ventilation
9.2 Green Roof Cooling with a Variable Insulation Green Roof
9.3 Night Ventilation Compared to Smart Ventilation
9.4 Green Roof Cooling with a Hybrid Radiant-Evaporative Green Roof
9.5 Hybrid Green Roof Combined with Micro-cooling Devices
9.6 Design Options Based on Green Roofs for Cooling
9.7 Green Roof Cooling Potential by Climate
9.8 The Future of Passive and Nature-Based Cooling Systems
Chapter 10 Passive Heating in Buildings
10.1 Applicability of Passive Heating
10.2 Control of Heat Loss
10.3 Passive Solar Heating
10.4 Types of Passive Heating Systems
10.4.1 Direct Gain Systems
10.4.2 Indirect Gain Systems
10.4.3 Isolated Gain Systems
10.5 Infrastructure and Passive Heating: An Example From a Competition

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Tags: Arun K Gupta, Andrew C Summors, Neuroanaesthesia, Critical Care