Please pardon the length of this post.
The questions are difficult in that several methods have been used (older & newer) yet all require validation, usually backfiguring from events and the associated failures. The geology, topography, debris source (surface debris, slope failure or rockfall), climate & storm patterns have enormous influences on the catastrophes. What I am going to provide is some guidance from regions of Western Colorado, USA. Much of the following has undergone little change from the mid 1970's. The real changes have been much better mapping and definition of potential events. You MUST Understand your situation.
Debris Flow Hazard means low, moderate and severe debris flow activity, to include mudflows.
• Low debris flow hazard poses possible minor damage to structures and slight risk to life. Mitigation is usually limited to site grading and slight elevation of the building foundation.
• Moderate debris flow hazard poses possible moderate damage to structures and risk to life. The building site location, relative to the Debris Flow Feature determines the mitigation criteria, as described in Hazard Mitigation. Mitigation is recommended and major cleanup is probable.
• Severe debris flow hazard poses possible severe damage to structures and risk to life.. The building site location, relative to the Debris Flow Feature, determines the necessary mitigation criteria, as described in Hazard Mitigation, (3)a. The building site or parcel may include areas which should be avoided for some types of construction or in extreme circumstances, placed in a Hazard Avoidance District.
In the case of moderate to severe debris flow hazard the following criteria is applied:
a. Within six hundred (600) feet of gully mouths, as shown on the geologic hazards mapping, the following performance specifications shall be met unless a report by a qualified geologist and a qualified engineer which provides computations supporting other performance specifications for the specific area in question. Protection walls or constructions may be implemented which are separate from the building walls and meet the appropriate design criteria.
1. Within three hundred (300) feet (90 m) of gully mouths, all buildings shall have the uphill wall designed and constructed to resist a horizontal force of 900/lbs/ft2 (43kPa) to a height of six (6) feet above undisturbed or finished ground level, whichever is higher.
2. Between three hundred (300) and six hundred (600) feet (90-180 m) from gully mouths, all buildings shall have the uphill wall designed and constructed to resist a horizontal force of 400/lbs/ft2 (19kPa), to double the anticipated debris height ( six [6] feet maximum) above the undisturbed or finished ground level, whichever is higher.
3. The uphill wall shall be considered that wall most likely vulnerable, in terms of direction, to debris flow.
Building design which places sleeping quarters on the downhill or less vulnerable side is recommended within hazard mitigation districts with a high Hazard Zone designation.
