I have used it a few times and it was very easy to use, but also very powerful! Exceptional Training App Had the opportunity to review earlier versions of this app. It was great then and better now. Easy to use. Great options and interoperability.
Superb functions and options. Importing your own fotos is where the app becomes relevant and dynamic. This software has been a great tool in educating my crews during downtime and during multi-company training. Keep up the great work. I wanted to tell you how much [SimsUshare] has helped me with training of captain candidates. I just finished teaching a strategy and tactics class for my department, and it was a valuable tool.
I train people in fire and emergencies here in Australia and your app has been a godsend. The new elements you keep adding make it real for simulated scenarios and assessing what people would and can do in the emergency situations SimsUshare can create.
Mate, your imagination is your limit, and I would recommend this app to any emergency organisation for scenario based training.
Believe it or not, I even saw a headline news fire on TV about 6 months ago where I am sure they used this program to simulate the fire, there you go, it looked so real.
This app is incredible. I love it. I made 2 or 3 quick sims and it works perfectly I had no problem swapping my sims from PC to mobile. Thanks for the fast answer and the platinum licence. You and your team are the best. Multi level operations Use ADMS as a single or a multi-discipline incident command training tool with other first responders.
Learn more about our command training. Multi-agency response. Forest Fires. House Fire. Industrial Fire. Variety of fire scenarios ADMS provides firefighting scenarios allowing for real-time response to virtual situations.
Fire Progression. Fuel farm fire. ADMS technology. Industrial leak. Fire physics The physics-based simulation makes the fires, smoke, and hazardous materials behave as they do in real life. Build challenging scenarios with the SML Library. If simulation of concentrations of products of combustion is desired, then product release rates must also be specified up to three products. For forced vents, flow rates and direction can be user-specified or included in the simulation by accounting for user-specified fan and duct characteristics.
Wind and stack effects can be taken into account. It can be used to predict the actuation time of fixed temperature heat detectors and sprinkler heads subject to a user specified fire. DETACT-QS assumes that the thermal device is located in a relatively large area, that is only the fire ceiling flow heats the device and there is no heating from the accumulated hot gases in the room. The required program inputs are the height of the ceiling above the fuel, the distance of the thermal device from the axis of the fire, the actuation temperature of the thermal device, the response time index RTI for the device, and the rate of heat release of the fire.
The program outputs are the ceiling gas temperature and the device temperature both as a function of time and the time required for device actuation. It can be used to predict the actuation time of fixed temperature and rate of rise heat detectors, and sprinkler heads subject to a user specified fire which grows as the square of time.
CT-T2 assumes that the thermal device is located in a relatively large area, that is only the fire ceiling flow heats the device and there is no heating from the accumulated hot gases in the room.
The required program inputs are the ambient temperature, the response time index RTI for the device, the activation and rate of rise temperatures of the device, height of the ceiling above the fuel, the device spacing and the fire growth rate.
The program outputs are the time to device activation and the heat release rate at activation. ELVAC Elevator Evacuation is an interactive computer program that estimates the time required to evacuate people from a building with the use of elevators and stairs. It is cautioned that elevators generally are not intended as a means of fire evacuation, and they should not be used during fires.
However, it is possible to design elevator systems that for fire emergencies, and ELVAC can be used to evaluate the potential performance of such systems.
ELVAC calculates the evacuation time for one group of elevators. Input consists of floor to floor heights, number of people on floors, number of elevators in the group, elevator speed, elevator acceleration, elevator capacity, elevator door type and width, and various inefficiency factors. The output is a table of elevator travel time, round trip time, people moved, and number of round trips for each floor plus the total evacuation time. FIRDEMND simulates the suppression of post flashover charring and non-charring solid-fuel fires in compartments using water sprays from portable hose-nozzle equipment used by the fire departments.
The output of the Fire Demand Model FDM shows the extinguishing effects of water spray at various flow rates and droplet sizes. The calculations are based on a heat and mass balance accounting for gas and surface cooling, steam-induced smothering, water-spray induced air entrainment, direct extinguishment of the fire by water and the energy transport via inflow and outflow of heat and products of combustion. The fire may be entered either as a user-specified time-dependent mass loss rate or in terms of fundamental properties of the fuel.
In the latter case, the program will predict the fire growth rate by considering the changing oxygen concentration and smoke layer conditions in the room of fire origin. It can also predict the heating and possible ignition of up to three targets. The original fire and targets may also be user specified fires.
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