Portable inflatable habitat with modular payload, system and method

The invention claimed is: 1. A diving apparatus for a diver underwater comprising: a portable habitat in which a breathable environment is maintained underwater, the habitat having a collapsible envelope, the collapsible envelope takes shape through inflation to an expanded state underwater, the envelope having attachment points, and a modular payload which removably attaches to the envelope underwater, the modular payload having a breathable gas source disposed within the modular payload to provide breathable gas for the diver to breathe in the habitat and a carbon dioxide scrubber disposed within the modular payload which removes carbon dioxide from the environment when the habitat is underwater, the scrubber including a canister with a pressure relief valve fitted to the canister to allow internal expanding volume to vent to prevent the canister from exploding; and an anchor mechanism attached to the habitat to maintain the habitat at a desired depth underwater, the modular payload is a replaceable cartridge that fits within the envelope. 2. The apparatus of claim 1 wherein the habitat has a frame to which the envelope attaches. 3. The apparatus of claim 2 wherein the modular payload is ballast to neutral buoyancy underwater. 4. The apparatus of claim 3 wherein at least one gas cylinder containing primary displacement gas is attached to the frame to inflate the envelope. 5. The apparatus of claim 4 wherein the frame provides rigid support for the envelope and from which the anchor mechanism is affixed to a substrate below the habitat, or to inverted scaffolding extending from a surface structure above the habitat. 6. The apparatus of claim 5 including pins which are disposed through the attachment points and the modular payload to removably attach the modular payload to the envelope. 7. The apparatus of claim 6 wherein during transport to the habitat down through the water, the canister is closed and pressure within the canister is regulated via a supply of a demand regulator fixed to the gas source within the payload, the demand regulator maintains pressure within the canister to equal ambient pressure, therefore eliminating a possibility for the canister to be crushed under water pressure. 8. The apparatus of claim 7 wherein the modular payload includes a carbon dioxide scrubber fan in fluidic communication with the carbon dioxide scrubber. 9. The apparatus of claim 8 wherein the modular payload includes an oxygen source. 10. The apparatus of claim 9 wherein the modular payload includes an oxygen monitor and an oxygen metering device. 11. The apparatus of claim 10 wherein the modular payload includes an emergency lung powered carbon dioxide scrubber and an emergency demand regulator and a battery. 12. The apparatus of claim 11 wherein the modular payload includes a manifold for routing displacement gas and oxygen in regard to the habitat. 13. The apparatus of claim 12 wherein the envelope is constructed of a fabric or plastic which is flexible to inflate with gas underwater to the expanded state and which is impermeable to water or gas and contains a pressure required to maintain inflation of the envelope in the expanded state underwater. 14. The apparatus of claim 13 wherein the envelope includes a first quarter-turn valve which is plumbed through the envelope on the envelope's exterior permitting the envelope to be deflated for stowage and transport, and a second quarter-turn valve which is plumbed through the envelope on the interior of the envelope permitting deflation or pressure release from inside the envelope. 15. The apparatus of claim 14 wherein the envelope has multiple fixation points to allow the envelope to be anchored to the frame. 16. The apparatus of claim 15 wherein when the envelope is deflated to the collapsed state, the envelope packs and stows within the frame and is wrapped up using at least one strap. 17. The apparatus of claim 16 including a seat disposed in the inflated enclosure. 18. A method for a diver to dive underwater comprising the steps of: positioning a habitat at a desired depth underwater; inflating an envelope of the habitat to an expanded state in which the diver may enter to create a breathable environment in the envelope for the diver to breath gas of the environment; removably attaching a first modular payload to the envelope; removing the first modular payload from the envelope while the envelope is underwater; and removably attaching a second modular payload to the envelope while the envelope is underwater, the first modular payload and the second modular payload each have a seat on which the diver can sit while the habitat is underwater, the first modular payload has a breathable gas source disposed within the modular payload to provide breathable gas for the diver to breathe in the habitat and a carbon dioxide scrubber disposed within the modular payload which removes carbon dioxide from the environment when the habitat is underwater, the scrubber including a canister with a pressure relief valve fitted to the canister to allow internal expanding volume to vent to prevent the canister from exploding, the modular payload is a replaceable cartridge that fits within the envelope. 19. A system for supporting a diver underwater comprising: a first portable diving apparatus positioned at a first location underwater over time; and a second portable diving apparatus positioned at a second location underwater over time and adjacent or the first diving apparatus, the first and second apparatuses each having a habitat with an inflatable envelope and a replaceable modular payload which supports the diver with a breathable environment over time underwater, the modular payload having a breathable gas source disposed within the modular payload to provide breathable gas for the diver to breathe in the habitat and a carbon dioxide scrubber disposed within the modular payload which removes carbon dioxide from the environment when the habitat is underwater, the scrubber including a canister with a pressure relief valve fitted to the canister to allow internal expanding volume to vent to prevent the canister from exploding, the modular payload is a replaceable cartridge that fits within the envelope. 20. A diving apparatus for a diver underwater comprising: a portable habitat in which a breathable environment is maintained underwater, the habitat having a collapsible envelope, the collapsible envelope takes shape through inflation to an expanded state underwater; a modular payload which removably attaches to the envelope, the modular payload having a breathable gas source disposed within the modular payload to provide breathable gas for the diver to breathe in the habitat and a carbon dioxide scrubber disposed within the modular payload which removes carbon dioxide from the environment when the habitat is underwater, the scrubber including a canister with a pressure relief valve fitted to the canister to allow internal expanding volume to vent to prevent the canister from exploding, the modular payload is a replaceable cartridge that fits within the envelope; and a propulsion unit removeably attached to the envelope to propel the habitat through the water. 21. A method for a diver to dive underwater comprising the steps of: the diver entering an inflated portable enclosure with breathable gas underwater, the enclosure having an inflatable envelope, and a modular payload which removably attaches to the envelope, the modular payload having a breathable gas