A portable ignition system ignites flammable materials at a burn pit. The system includes a portable ignition system control panel with a pilot on/off indicator, a system control module, and an operator input device. The system has a fuel gas source plumbed to a pilot gas tube. The system also has an inert gas source plumbed to the pilot gas tube. The system is electrically powered by a power supply, solar panels, and/or batteries. The system has a high energy ignition system connected to the igniter and located near the pilot gas tube outlet to ignite the fuel gas. The system also has a monitored subsystem that detects parameters of operation of the portable ignition system.

Provided are equipment and methods for intelligent mobile medical waste disposal and flue gas purification, and the equipment includes a vehicle-mounted mobile platform and a skid-mounted standard container; where, the vehicle-mounted mobile platform is composed of a standard semi-trailer truck and a truck carriage base; the vehicle-mounted mobile platform is used for realizing functions of mobile transportation, cargo loading, fuel loading and unloading, power charging and discharging and network information transmission; the skid-mounted standard container is loaded above the truck carriage base of the vehicle-mounted mobile platform; and the skid-mounted standard container consists of a standard container and contents in the standard container; and the contents include: an intelligent collection and transportation feeding system, a medical waste pyrolysis incineration system, an incineration flue gas purification system, and an intelligent management and control system for medical waste disposal.

Provided are equipment and methods for intelligent mobile medical waste disposal and flue gas purification, and the equipment includes a vehicle-mounted mobile platform and a skid-mounted standard container; where, the vehicle-mounted mobile platform is composed of a standard semi-trailer truck and a truck carriage base; the vehicle-mounted mobile platform is used for realizing functions of mobile transportation, cargo loading, fuel loading and unloading, power charging and discharging and network information transmission; the skid-mounted standard container is loaded above the truck carriage base of the vehicle-mounted mobile platform; and the skid-mounted standard container consists of a standard container and contents in the standard container; and the contents include: an intelligent collection and transportation feeding system, a medical waste pyrolysis incineration system, an incineration flue gas purification system, and an intelligent management and control system for medical waste disposal.

The present invention relates to a system for smart agriculture biochar production, yield prediction, and measurement. The system utilizes real time remote sensing of the local environment, weather and related conditions, and data analysis on spatial and spectral imagery data captured from satellite sensors, aerial sensors, and agricultural drones. The system performs a field mapping of a target field having a biomass and obtaining spectral imagery data of the biomass. A mobile pyrolysis system is deployed about the target field and follows a path derived from the spectral imagery data.

The present invention relates to a system for smart agriculture biochar production, yield prediction, and measurement. The system utilizes real time remote sensing of the local environment, weather and related conditions, and data analysis on spatial and spectral imagery data captured from satellite sensors, aerial sensors, and agricultural drones. The system performs a field mapping of a target field having a biomass and obtaining spectral imagery data of the biomass. A mobile pyrolysis system is deployed about the target field and follows a path derived from the spectral imagery data.

A method for clearing a site of vegetative waste includes deploying a portable power generation system and a burner unit to the site. The power generation system has a first air curtain firebox for burning vegetative waste and is configured to generate electrical power from heat energy released by burning vegetative waste in the first air curtain firebox and store the electrical power in a battery pack. The burner unit has a second air curtain firebox for burning vegetative waste and a battery for supplying electrical power to its electrical components. The method further includes burning vegetative waste from the site in the first air curtain firebox to generate and store electrical power in the battery pack, burning vegetative waste from the site in the second air curtain firebox, transporting the battery pack to the burner unit or vice versa, and recharging the burner unit battery using the battery pack.

A method for clearing a site of vegetative waste includes deploying a portable power generation system and a burner unit to the site. The power generation system has a first air curtain firebox for burning vegetative waste and is configured to generate electrical power from heat energy released by burning vegetative waste in the first air curtain firebox and store the electrical power in a battery pack. The burner unit has a second air curtain firebox for burning vegetative waste and a battery for supplying electrical power to its electrical components. The method further includes burning vegetative waste from the site in the first air curtain firebox to generate and store electrical power in the battery pack, burning vegetative waste from the site in the second air curtain firebox, transporting the battery pack to the burner unit or vice versa, and recharging the burner unit battery using the battery pack.