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IP-Enabled Energy Management: A Proven Strategy for Administering Energy as a Service [Minkštas viršelis]

4.50/5 (4 ratings by Goodreads)
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  • Formatas: Paperback / softback, 288 pages, aukštis x plotis x storis: 231x187x26 mm, weight: 432 g, Illustrations, Contains 1 Digital online
  • Išleidimo metai: 01-Oct-2010
  • Leidėjas: John Wiley & Sons Ltd
  • ISBN-10: 0470607254
  • ISBN-13: 9780470607251
Kitos knygos pagal šią temą:
IP-Enabled Energy Management: A Proven Strategy for Administering Energy as a ServiceDidesnis paveikslėlis
  • Formatas: Paperback / softback, 288 pages, aukštis x plotis x storis: 231x187x26 mm, weight: 432 g, Illustrations, Contains 1 Digital online
  • Išleidimo metai: 01-Oct-2010
  • Leidėjas: John Wiley & Sons Ltd
  • ISBN-10: 0470607254
  • ISBN-13: 9780470607251
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780470607251.html
Raktažodžiai:
"Based on a real energy management program that author Rob Aldrich implements at Cisco, this book shows you how to implement an energy management strategy that has proven to reduce and control energy costs by establishing energy as a domain that network administrators help manage for their company. In this book, you will find step-by-step instruction for implementing a comprehensive energy management strategy, beginning with benchmarking and eventually coming full circle with re-investing savings back into the program for its sustainability. The book also covers fundamentals of efficiency energy use, project management, deployment and administration of energy domains, and reporting. Hands-on instruction is emphasized in this book and case studies of the author's implementation at Cisco appear throughout the book and collectively as a complete case study."--Provided by publisher.

Provided by publisher.

Extend Your Energy Management Capabilities

Managing energy usage via a company network allows you to create an energy management program that can be scaled company-wide, and this unique book shows you just how to do it. Through step-by-step instruction and real-world case studies drawn from the expert author team's own experience at Cisco, this book lays out an IP-based energy management strategy to optimize resources, dramatically increase energy savings, and significantly reduce your carbon footprint.

How do you establish energy management across multiple functions, such as compute, network, and storage while preparing for building infrastructure convergence? How do you set up energy domains on a network? How do you bring this all together into one unified energy program—then deploy it, manage it, and measure results? Find the answers in this timely guide.

  • Consider energy in terms of risk, cost, and resource management

  • Gather raw data on where your company is now and set up benchmarking

  • Create strategies across multiple stakeholders and goals, including facilities, IT, security, and sustainability

  • Establish and administer energy domains

  • Review the basics of energy accounting, measure results, and set up reporting

  • See how to make your program sustainable and prepare for the future

Introduction xxi
Chapter 1 A Stake in the Ground
1(42)
How Did We Get Here?
2(6)
Why Should You Care?
3(3)
Collaborate and Conquer
6(2)
What You Should Know about Energy
8(5)
Where Does It Come From?
9(2)
How Is It Used?
11(2)
Energy Accounting
13(4)
Calculating Your Energy Costs
13(2)
Energy Intensity
15(1)
Cost Allocations
16(1)
Energy Use in the Digital Age
17(8)
How Is It Being Used Today?
19(2)
Emerging Technologies
21(4)
The State of Energy Management Today
25(7)
Where Is Energy Management Technology Adoption Today?
26(1)
Energy Sourcing
27(1)
Renewable Energy
28(4)
The Future of Energy Management
32(11)
Smart Loads
33(4)
Smart Grid
37(2)
Where Is Energy Management Headed?
39(4)
Chapter 2 Benchmarking
43(32)
Understanding the Scope of Considerations
43(7)
Understanding Traditional Accounting Frameworks
44(1)
Use What Works
45(5)
Accessing Benchmark Data
50(14)
Getting Permission
51(5)
Where to Get It
56(5)
Instrumentation Options
61(3)
Structuring the Data
64(10)
Program Scope
64(7)
Benchmark Framework
71(3)
The Bottom Line
74(1)
Chapter 3 Assessing Value
75(22)
Organizing the Data
75(8)
Finding a Database
76(1)
Ensuring Data Quality
77(2)
Prioritizing Data
79(4)
Translating Data Models
83(3)
Formulaic Approaches
83(1)
Qualitative Approaches
84(2)
Presenting the Data
86(10)
The Context
86(3)
Comparative Models
89(4)
Sharing Vision and Goals
93(3)
The Bottom Line
96(1)
Chapter 4 Managing Your Project
97(20)
Getting Started
97(8)
Drafting a Project Framework
98(7)
Building a Team
105(9)
Virtual Teams
108(1)
Aggregating Resources and Execution
109(2)
Project Milestones
111(3)
Getting Organized
114(1)
Getting Together
114(1)
Structuring Your Success
114(1)
The Bottom Line
115(2)
Chapter 5 Building a Pilot Deployment
117(28)
Understanding Energy Management
117(2)
FCAPS
118(1)
FCAPS + E
118(1)
Selecting Your Teams
119(1)
Defining the Mission and Philosophy
120(2)
Creating the Root System
122(14)
Determining Hardware Requirements
122(1)
Setting Up the Database
123(3)
Choosing the Data
126(7)
Gathering the Data
133(3)
Understanding Energy Domains
136(5)
Natural Domain Structure
136(1)
Smart Loads
137(2)
Energy Domains as Smart Loads
139(2)
Selecting Pilot Energy Domains
141(1)
Communicating Results
142(1)
The Bottom Line
143(2)
Chapter 6 Pilot to Production
145(14)
Creating a Production Plan
145(2)
Reviewing the Pilot
147(1)
Partitioning
147(2)
Performing Inventory and Categorization
149(7)
Audit Data
150(1)
Roles, Ratings, and Tags
151(4)
Monitored Data and Baseline
155(1)
Implementing Policies
156(2)
Passive and Manual
157(1)
Active
157(1)
The Bottom Line
158(1)
Chapter 7 Reporting
159(12)
Information Review
159(1)
Government Mandates
160(3)
U.S. Activities
160(1)
European Union Activities
161(1)
Chinese Activities
161(1)
Emerging Nations and South African Activities
162(1)
Effectiveness of Government-Mandated Reporting
162(1)
Conversion to GHG and CO2 Equivalencies
163(1)
Energy Domain Breakdown
164(2)
Live, Operational, and Historical Data
166(4)
The Bottom Line
170(1)
Chapter 8 Administering Energy Domains
171(14)
Organizing the Energy Domains
171(8)
Performing Physical Energy Domain Administration
174(2)
Classifying Energy Consumers
176(2)
Applying Classifications to Devices
178(1)
Specifying Policies
179(3)
Static Policies
179(1)
Dynamic Policies
180(1)
Enforced Versus Suggested Policies
180(2)
Implementing Policies
182(2)
The Bottom Line
184(1)
Chapter 9 Making Your Program Sustainable
185(18)
Funding Your Program
185(3)
Programmatic Funding Models
186(2)
Determining Program Placement
188(4)
IT Operations
189(2)
Facilities and Real Estate Operations
191(1)
Choosing a Program Structure
192(2)
Centralize It
192(1)
Distribute It
193(1)
Pay for It
194(1)
Program Scalability
194(7)
Vision and Execution
198(1)
Methodology
199(1)
Executive Support
200(1)
The Bottom Line
201(2)
Chapter 10 Preparing for the Next Big Thing
203(20)
Chart Your Course
203(12)
Emerging Technologies
204(1)
Water Management
205(5)
Cloud Computing and Energy Management
210(2)
Data Center Energy Management
212(3)
On the Horizon
215(4)
Making Energy Usage Visible
216(1)
Using External Programs
217(2)
Resource Management
219(2)
Tiering
219(1)
Defining Workloads
220(1)
Bringing Power to the Packet
220(1)
The Bottom Line
221(2)
Appendices
223(20)
Appendix A The Bottom Line
225(10)
Chapter 2 Benchmarking
225(1)
Chapter 3 Assessing Value
226(1)
Chapter 4 Managing Your Project
227(1)
Chapter 5 Building a Pilot Deployment
228(1)
Chapter 6 Pilot to Production
229(2)
Chapter 7 Reporting
231(1)
Chapter 8 Administering Energy Domains
232(1)
Chapter 9 Making Your Program Sustainable
233(1)
Chapter 10 Preparing for the Next Big Thing
233(2)
Appendix B Links and Resources
235(8)
Useful Software
235(3)
Topical Resources
238(1)
Research, Analysis, and Educational Resources
238(1)
Online Tools
239(4)
Glossary 243(12)
Index 255
Rob Aldrich is a Senior Manager for Cisco's Efficiency Assurance Program as well as Principal Energy Services Architect and energy efficiency expert at Cisco. Aldrich is currently focused on working with customers, partners, and Cisco engineering to develop new solutions to global energy challenges. John Parello is currently a Technical Leader in the Ethernet Switching and Technology Group at Cisco and is the lead architect and inventor of Cisco EnergyWise. With over 25 years of technical experience, Parello has created systems and solutions in the public utility, finance, wired, and wireless network management and start-up sectors.