Composite pressure vessel assembly with an integrated heating element

What is claimed is: 1 . A pressure vessel assembly comprising: a first composite layer surrounding at least one chamber, and a first heating element embedded in the first composite layer. 2 . The pressure vessel assembly set forth in claim 1 further comprising: a first absorbent disposed in at least one of the at least one chamber. 3 . The pressure vessel assembly set forth in claim 2 , wherein the first composite layer comprises a polymer matrix composite. 4 . The pressure vessel assembly set forth in claim 2 , wherein the first heating element is selected from the group comprising metal wire, copper foil and carbon nano tubes. 5 . The pressure vessel assembly set forth in claim 2 , wherein the first composite layer comprises continuous carbon fibers, and the heating element includes the continuous carbon fibers. 6 . The pressure vessel assembly set forth in claim 2 , wherein the pressure vessel assembly is configured to store natural gas and the first heating element is configured to heat the absorbent to extract the natural gas. 7 . The pressure vessel assembly set forth in claim 1 , wherein the first heating element is configured to be a portion of a vessel structural health monitoring device. 8 . The pressure vessel assembly set forth in claim 1 further comprising: a first liner defining a first chamber of the at least one chamber, and wherein the first liner is encompassed by the first composite layer. 9 . The pressure vessel assembly set forth in claim 8 , wherein the first liner is selected from the group comprising blow molded plastic and injection molded plastic. 10 . The pressure vessel assembly set thrill in claim 8 further comprising: a second liner defining a second chamber of the at least one chamber, and wherein the first and second liners arc encompassed by the first composite layer. 11 . The pressure vessel assembly set forth in claim 8 further comprising: a second liner defining a second chamber of the at least one chamber; and a second composite layer joined with and enveloping the second liner, and wherein the first liner is joined and enveloped by the first composite layer, and portions of the first and second composite layers are joined. 12 . The pressure vessel assembly set forth in claim 11 further comprising: a second heating element embedded in the second composite layer. 13 . The pressure vessel assembly set forth in claim 12 further comprising: a third composite layer joined with and enveloping the first and second composite layers. 14 . The pressure vessel assembly set forth in claim 10 further comprising: a second absorbent disposed in the second chamber. 15 . The pressure vessel assembly set forth in claim further :comprising: a second absorbent disposed in the second chamber. 16 . The pressure vessel assembly set forth in claim 13 , wherein the third composite layer comprises a glass fiber. 17 . A composite pressure vessel assembly comprising: a liner defining a chamber and comprising blow molded plastic; a layer joined with and enveloping the liner, and wherein the layer comprises a polymer matrix composite: an absorbent disposed in the chamber; and a heating element embedded in the layer. 18 . The composite pressure vessel assembly set forth in claim 17 , wherein the polymer matrix composite includes a reinforcement fiber selected from the group comprising a carbon fiber, a glass fiber and an aramid fiber. 19 . The composite pressure vessel assembly set forth in claim 17 , wherein the heating element is configured to convert electrical energy to thermal energy and is selected from the group comprising metal wire, copper foil and carbon nano tubes. 20 . The composite pressure vessel assembly set forth in claim 17 , wherein the heating element is configured to apply hydronic heat and includes tubes embedded in the layer for flowing a heated fluid.