7.3.4 Ex situ and in situ biological/chemical reduction—DARAMEND process
7.3.5 Alkaline hydrolysis (AH)
7.3.6 Solidification/stabilization (S/S)
7.3.7 Pump and treat w/granular activated carbon (GAC)
7.3.8 In situ bioremediation (ISB)
7.4 Conclusions and further work
8 Characterization and monitoring of energetic compounds on training ranges: case studies in Alaska, United States
8.4.3 Fate and transport on ranges
9 Heavy metal contamination on small arms shooting ranges
9.2 Methods for contaminated site management
9.2.1 Historical investigation
9.3 Pollutant management techniques
9.3.1 Improve construction properties of artificial backstops
9.3.4 Adapt military training exercises to the terrain
9.3.5 Correct maintenance and appropriate use of shooting ranges
9.4 Case study shooting range, Flumserberg, Switzerland
10 Metal and energetics survey of the Borris shooting range, Denmark
10.2 History of Borris shooting range
10.3.1 Background
10.5.1 Artillery firing position
10.5.4 Burn site surplus artillery propellant
10.6.1 Artillery firing position
10.6.4 Burn site surplus artillery propellant
10.7.1 Artillery firing position
10.7.4 Burn site surplus artillery propellant
11 Mitigation of the environmental footprint of a munition
11.2 Development of field demilitarization methods in Canada and the USA for the destruction