Battery Module with Tubular Spacer that Facilitates Cell Cooling

What is claimed, is: 1 . A battery module comprising: an array of electrochemical cells, each cell of the array comprising a cell first end that includes a cell positive terminal, a cell second end that is opposed to the cell first end and includes a cell negative terminal, and a cell sidewall that extends between the cell first end and the cell second end, a frame configured to support the cells within the battery module, the frame encircling the array in such a way as to overlie the cell sidewall of each cell and expose the cell first end and the cell second end of each cell, a tubular spacer including an open spacer first end, an open spacer second end that is opposed to the spacer first end and a spacer sidewall that extends between the spacer first end and the spacer second end, the spacer sidewall including a first wall portion, a second wall portion that is spaced apart from, and parallel to, the first wall portion, a third wall portion that is perpendicular to the first wall portion and joins the first wall portion to the second wall portion, and a fourth wall portion that is spaced apart from, and parallel to the third wall portion, the fourth wall portion joining the first wall portion to the second wall portion, wherein the first wall portion, the second wall portion, the third wall portion and the fourth wall portion cooperate to define a spacer interior space, and the frame is disposed in the spacer interior space in such a way that each of the cell first ends and each of the cell second ends face one of the first wall portion and the second wall portion. 2 . The battery module of claim 1 , wherein an inner surface of the first wall portion and an inner surface of the second wall portion each comprise a groove that extends from the spacer first end to the spacer second end, the groove providing a fluid passageway between the spacer and the array. 3 . The battery module of claim 2 , wherein the groove opens facing one of a positive cell terminal or a negative cell terminal of a subset of the cells, whereby a fluid disposed in the fluid passageway flows across the one of a positive cell terminal or a negative cell terminal of the subset of the cells. 4 . The battery module of claim 2 , wherein the cells are arranged in rows, and the number of grooves provided on an inner surface of the first wall portion corresponds to the number of rows. 5 . The battery module of claim 2 , comprising a module positive terminal, a module negative terminal, a first bus bar that electrically connects the cell positive terminals of at least a subset of the cells to the module positive terminal, and a second bus bar that electrically connects the cell negative terminals of the subset of the cells to the module negative terminal, a first electrical connector that electrically connects the first bus bar to a cell positive terminal of each cell of the subset of the cells, and a second electrical connector that electrically connects the second bus bar to a cell negative terminal of each cell of the subset of the cells, wherein each of the first electrical connector and the second electrical connector are aligned with an axis that is parallel to the groove. 6 . The battery module of claim 2 , wherein the spacer is formed of a dielectric material. 7 . The battery module of claim 2 , wherein the groove is shaped and dimensioned to accommodate a flow of gas vented from a cell. 8 . The battery module of claim 1 , wherein the frame is configured retain the cells in a close packed configuration, where a close packed configuration comprises a configuration in which the cells are arranged side-by-side in rows, where alternating rows are relatively offset in a direction parallel to the row such that the centers of the cells of one row are midway between the centers of the cells of the adjacent rows, and each cell is in direct contact with adjacent cells within its row, and with adjacent cells within adjacent rows. 9 . The battery module of claim 8 , wherein the cell sidewall of each cell is secured to the cell sidewall of an adjacent cell via adhesive. 10 . A battery pack comprising a first battery module and a second battery module, the first battery module and the second battery module each including: an array of electrochemical cells, each cell of the array comprising a cell first end that includes a cell positive terminal, a cell second end that is opposed to the cell first end and includes a cell negative terminal, and a cell sidewall that extends between the cell first end and the cell second end; a frame configured to support the cells within the battery module, the frame encircling the array in such a way as to overlie the cell sidewall of each cell and expose the cell first end and the cell second end of each cell; a tubular spacer including an open spacer first end, an open spacer second end that is opposed to the spacer first end and a spacer sidewall that extends between the spacer first end and the spacer second end, the spacer sidewall including a first wall portion, a second wall portion that is spaced apart from, and parallel to, the first wall portion, a third wall portion that is perpendicular to the first wall portion and joins the first wall portion to the second wall portion, and a fourth wall portion that is spaced apart from, and parallel to the third wall portion, the fourth wall portion joining the first wall portion to the second wall portion, wherein the first wall portion, the second wall portion, the third wall portion and the fourth wall portion cooperate to define a spacer interior space, the frame is disposed in the spacer interior space, a barrier is disposed between the first wall portion of the first battery module and the second wall portion of the second battery module, and the barrier is a plate that is impermeable to gas and has a melting temperature that is greater than 1000 degrees Celsius. 11 . The battery pack of claim 10 , wherein the frame is disposed in the spacer interior space in such a way that each of the cell first ends and each of the cell second ends face one of the first wall portion and the second wall portion. 12 . The battery pack of claim 10 , wherein the battery pack includes a fluid-sealed battery pack housing that receives the first battery module and the second battery module, and the battery pack housing is flooded with a dielectric fluid. 13 . The battery pack of claim 12 , wherein an inner surface of the first wall portion and an inner surface of the second wall portion each comprise a groove that extends from the spacer first end to the spacer second end, the groove providing a dielectric fluid flow channel between the spacer and the array. 14 . The battery pack of claim 12 , wherein the dielectric fluid enters the groove via the open spacer first end, and exits the groove via the open spacer second end. 15 . The battery pack of claim 14 , wherein the dielectric fluid that enters the groove is actively driven into the groove.