| Chapter 1 |
OVERVIEW |
| Chapter 2 |
APPLICABILITY OF CHP SYSTEMS |
| Chapter 3 |
POWER EQUIPMENT AND SYSTEMS |
| Chapter 4 |
THERMAL DESIGN FOR CHP |
| Chapter 5 |
PACKAGED CHP SYSTEMS |
| Chapter 6 |
REGULATORY ISSUES |
| Chapter 7 |
CARBON FOOTPRINT—ENVIRONMENTAL BENEFITS AND EMISSION CONTROLS |
| Chapter 8 |
FUNDAMENTAL CONCEPTS |
| Chapter 9 |
CHP ECONOMIC ANALYSIS |
| Chapter 10 |
THE ENGINEERING PROCESS |
| Chapter 11 |
ELECTRICAL DESIGN CHARACTERISTICS AND ISSUES |
| Chapter 12 |
OBTAINING A CONSTRUCTION PERMIT |
| Chapter 13 |
CHP CONSTRUCTION |
| Chapter 14 |
OBTAINING OPERATING PERMITS AND IMPLEMENTING COMPLIANCE MANAGEMENT PROGRAMS |
| Chapter 15 |
MANAGING RISKS DURING CHP PLANT CONSTRUCTION |
| Chapter 16 |
OPERATION AND MAINTENANCE SERVICES |
| Chapter 17 |
SUSTAINING OPERATIONAL EFFICIENCY OF A CHP SYSTEM |
| Chapter 18 |
SUSTAINING CHP OPERATIONS |
| Chapter 19 |
CASE STUDY 1: PRINCETON UNIVERSITY DISTRICT ENERGY SYSTEM |
| Chapter 20 |
CASE STUDY 2: FORT BRAGG CHP |
| Chapter 21 |
CASE STUDY 3: OPTIMAL SIZING USING COMPUTER SIMULATIONS—NEW SCHOOL |
| Chapter 22 |
CASE STUDY 4: UNIVERSITY CAMPUS CHP ANALYSIS |
| Chapter 23 |
CASE STUDY 5: GOVERNMENTAL FACILITY—MISSION CRITICAL |
| Chapter 24 |
CASE STUDY 6: ECO-FOOTPRINT OF ON-SITE CHP VERSUS EPGS SYSTEMS* |
| Chapter 25 |
CASE STUDY 7: INTEGRATE CHP TO IMPROVE OVERALL CORN ETHANOL ECONOMICS* |
| Chapter 26 |
CASE STUDY 8: ENERGY CONSERVATION MEASURE ANALYSIS FOR 8.5-MW IRS CHP PLANT |
