System and method of using heat sources and alloys in down-hole applications

The invention claimed is: 1. A chemical reaction heat source for use in well abandonment heaters, said heat source having a fuel composition that comprises thermite and a damping agent; wherein the fuel composition is in the form of a plurality of blocks; wherein each block has a predetermined ratio of thermite to damping agent that determines a heat generation capability of said block; and, wherein at least one block of the plurality has a different heat generation capability from another block of the plurality. 2. The chemical reaction heat source of claim 1 , wherein the blocks in the plurality of blocks are arranged in series so that each block ignites in accordance with a pre-arranged order. 3. The chemical reaction heat source of claim 2 , wherein the arrangement comprises three blocks, wherein the first block is adjacent an igniter and has a first heat generation capacity, a second block having second heat generation capability, and a third block having a third heat generation capacity; wherein the first heat generation capacity is greater than the second or third heat generation capacities, and the second heat generation capacity is different from the third heat generation capacity. 4. The chemical reaction heat source of claim 1 , wherein the damping agent is sand. 5. A down-well heater for use in the deployment and retrieval of Bismuth alloy based well plugs, said heater comprising a first heater block, a second heater block and a third heater block; wherein each heater block comprises a chemical reaction heat source having a fuel composition that comprises thermite and a damping agent; wherein each of the heater blocks has a ratio of thermite to damping agent; wherein the ratio of thermite to damping agent for at least one of the blocks is different from the ratio of thermite to damping agent of another block; whereby at least one of the blocks has a different heat generation capacity from another block. 6. The heater of claim 5 further comprising ignition means and wherein the ignition means are positioned in contact with an initiator composition that comprises thermite but no damping agent. 7. The heater of claim 5 , further comprising heat shielding means in the form of a region of pure damping agent located between the heat source and a region that is to be shielded. 8. The heater of claim 5 , wherein the first block has a first heat generation capacity, the second block has a second heat generation capacity, and the third block has a third heat generation capacity, wherein the second block is positioned between the first and third blocks, and the first block has a greater heat generation capacity than the third block and the third block has a greater heat generation capacity than the second block. 9. The heater of claim 5 , wherein the blocks are serially arranged, and the first block is adjacent the second block and the second block is adjacent the third block. 10. The heater of claim 5 , wherein the heat generation capacity of the first, second and third heater blocks are different; and at least two of the blocks are adjacent. 11. The heater of claim 5 , wherein the damping agent is sand.