Galvanic anode and method of corrosion protection

The invention claimed is: 1. A sacrificial anode body comprising: a first sacrificial metal, wherein said first sacrificial metal comprises a perforated flat sacrificial metal rolled into a cylinder, and wherein said first sacrificial metal comprises magnesium or a magnesium alloy; a second sacrificial metal, said second sacrificial metal less electrochemically negative than said first sacrificial metal, and wherein said second sacrificial metal comprises a perforated, flat sacrificial metal rolled into a cylinder and formed around said first sacrificial metal, wherein said second sacrificial metal comprises zinc or a zinc alloy, and wherein said first sacrificial metal and said second sacrificial metal are more electrochemically negative than steel; an encasement material comprising a porous mortar surrounding said first and second sacrificial metals; an insulative adhesive spacer in contact with said encasement material and having a compressible adhesive capable of absorption of corrosion products from said first and/or second sacrificial metal; and at least one elongated electrical conductor electrically connected to said anode body, wherein said electrical conductor emanates from said encasement material. 2. The sacrificial anode body of claim 1 , wherein said insulative adhesive spacer comprises a double-sided tape. 3. The sacrificial anode body of claim 1 , wherein said anode body comprises a substantially cylindrical shape having a C-shaped recess extending essentially the length of one side of the anode body. 4. The sacrificial anode body of claim 3 , wherein said insulative adhesive spacer comprises a double-sided tape. 5. An assembly for reducing the corrosion of steel reinforcement in a concrete structure comprising the sacrificial anode body of claim 1 , wherein said at least one electrical conductor connects to said steel reinforcement. 6. The assembly for reducing the corrosion of steel reinforcement in a concrete structure of claim 5 , wherein said insulative adhesive spacer comprises a double-sided tape. 7. The assembly for reducing the corrosion of steel reinforcement in a concrete structure of claim 5 , wherein said encasement material is a porous mortar. 8. The assembly for reducing the corrosion of steel reinforcement in a concrete structure of claim 5 , wherein said insulative adhesive spacer is located between and in contact with said steel reinforcement and said encasement material of said anode body. 9. The assembly for reducing the corrosion of steel reinforcement in a concrete structure of claim 8 , wherein said insulative adhesive spacer comprises a pressure sensitive adhesive. 10. The assembly for reducing the corrosion of steel reinforcement in a concrete structure of claim 5 , wherein said at least one electric conductor is a plurality of elongated metal conductors, wherein the elongated metal conductors are electrically connected to said anode assembly and emanate from opposing sides of said encasement material. 11. A method for reducing the corrosion of steel reinforcement in a concrete structure comprising: electrically connecting the sacrificial anode body of claim 1 to steel reinforcement in a steel reinforced concrete structure. 12. The method for reducing the corrosion of steel reinforcement in a concrete structure of claim 11 , further comprising: inserting said anode body into a hole formed in said concrete structure. 13. The method of reducing the corrosion of steel reinforcement in a concrete structure of claim 12 , further comprising: positioning said sacrificial anode body in contact with said steel reinforcement. 14. The method of reducing the corrosion of steel reinforcement in a concrete structure of claim 13 , further comprising: positioning a pressure sensitive adhesive in contact with and between said sacrificial anode body and said steel reinforcement.