This document outlines a standard practice for conducting system safety. In some cases, these principles may be captured in other standards that apply to specific commodities such as commercial aircraft and automobiles. For example, those manufacturers that produce commercial aircraft should use SAE ARP4754 or SAE ARP4761 (see Section 2 below) to meet FAA or other regulatory agency system safety-related requirements. The system safety practice as defined herein provides a consistent means of evaluating identified risks. Mishap risk should be identified, evaluated, and mitigated to a level as low as reasonably practicable. The mishap risk should be accepted by the appropriate authority and comply with federal (and state, where applicable) laws and regulations, executive orders, treaties, and agreements. Program trade studies associated with mitigating mishap risk should consider total life cycle cost in any decision.
This book, in its second edition, examines the energy sources that play a vital role in society today, as well as those that may be the primary energy sources of tomorrow. From our reliance on fossil fuels to the quest for energy independence, and the environmental issues that follow each decision, this book delves into the most prominent energy issues of our time. Armed with this information, the reader can think critically about the direction they want this world to take. Contents: Brief History of Energy Consumption Fossil Energy - Coal Fossil Energy - Oil and Gas Peak Oil Nuclear Energy Renewable Energy - Solar Energy Renewable Energy - Wind Energy Renewable Energy - Energy from Water Renewable Energy - Bioenergy and Synfuels Energy Carrier, Energy Storage and Hybrid Energy Systems Electricity Generation and Distribution Energy Economics Future Issues - Geopolitics of Energy Future Issues - Energy Forecasts