Thermoelectric conversion element, manufacturing method for the thermoelectric conversion element, and thermoelectric conversion module

What is claimed is: 1. A thermoelectric conversion element comprising: a plurality of particles, composed of thermoelectric material; the plurality of particles being sequentially arranged and directly connected to each other in series so that an overall structure of the thermoelectric conversion element forms a columnar arrangement of adjacent particles; adjacent particles, of the plurality of particles in the columnar arrangement, form an adjacent pair of the plurality of particles; a narrowed portion being formed between each adjacent pair of the plurality of particles in the columnar arrangement; and a protrusion being located between and coupling each adjacent pair of the plurality of particles to each other sequentially in series, and the protrusion being formed from thermoelectric material which protrudes outwardly from a connection point of the respective protrusion with each adjacent pair of the plurality of particles; wherein the protrusion has one of: a continuous shape extending around an entire periphery of the protrusion, or a shape in which one or more interrupted portions exist in a range of the entire periphery of the protrusion, and a circumferential length of any interrupted portion of the protrusion is less than one half of the entire periphery of the protrusion. 2. The thermoelectric conversion element according to claim 1 , wherein each adjacent pair of the plurality of particles are melted to each other by application of a pressure load, pressing each adjacent pair of the plurality of particles against each other and simultaneously passing a pulsed electrical current through a contact point of each adjacent pair of the plurality of particles so that the thermoelectric material, in the contact point of each adjacent pair of the plurality of particles, is locally melted, by resistance heating caused by the pulsed electrical current, thereby welding each adjacent pair of the plurality of particles together. 3. A thermoelectric conversion module comprising: a plurality of p-type elements each composed of p-type thermoelectric material and a plurality of n-type elements each composed of n-type thermoelectric material, the plurality of p-type elements and the plurality of n-type elements being spatially arranged parallel to one another with a space provided therebetween; wherein on a first end side, one of the p-type elements and one of the n-type elements are electrically connected to each other via a first electrode; on a second end side, the one of the p-type elements and another one of the n-type elements are electrically connected to each other via a second electrode at least some of the p-type elements and at least some of the n-type elements are alternately connected electronically in series; and one or more of the plurality of p-type elements and the plurality of n-type elements is a thermoelectric conversion element comprising: a plurality of particles composed of thermoelectric material and linearly connected sequentially in series to each other, and adjacent particles, of the plurality of particles, form an adjacent pair of the plurality of particles; and a protrusion located between and coupling each adjacent pair of the plurality of particles to each other sequentially in series, and the protrusion being formed from thermoelectric material which protrudes outwardly from a connection point of the respective protrusion with each adjacent pair of the plurality of particles, wherein the protrusion has one of: a continuous shape extending around an entire periphery of the protrusion, or a shape in which one or more interrupted portions exist in a range of the entire periphery of the protrusion; a circumferential length of any interrupted portion of the protrusion is less than one half of the entire periphery of the protrusion; the plurality of particles are arranged so that an overall structure of the thermoelectric conversion element, of the one or more of the plurality of the p-type elements and the plurality of n-type elements, forms a columnar arrangement; and a narrowed portion is formed, in the columnar arrangement, between each adjacent pair of the plurality of particles in the thermoelectric conversion element of the one or more of the plurality of p-type elements and the plurality of n-type elements. 4. The thermoelectric conversion module according to claim 3 , wherein each adjacent pair of the plurality of particles are melted to each other by application of a pressure load, pressing each adjacent pair of the plurality of particles against each other and simultaneously passing a pulsed electrical current through a contact point of each adjacent pair of the plurality of particles so that the thermoelectric material, in the contact point of each adjacent pair of the plurality of particles, is locally melted, by resistance heating caused by the pulsed electrical current, thereby welding each adjacent pair of the plurality of particles together. 5. The thermoelectric conversion module according to claim 3 , further comprising a reinforcement provided between the plurality of p-type elements and the plurality of n-type elements. 6. The thermoelectric conversion module according to claim 3 , wherein: the first end side is a low temperature side associated with first ends of the plurality of p-type elements and first ends of the plurality of n-type elements; and the second end side is a high temperature side associated with second ends of the plurality of p-type elements and second ends of the plurality of n-type elements. 7. The thermoelectric conversion module according to claim 3 , further comprising a reinforcement provided between the plurality of p-type elements and the plurality of n-type elements, and wherein the reinforcement is a resin composition filled between the plurality of p-type elements and the plurality of n-type elements. 8. The thermoelectric conversion module according to claim 5 , wherein the reinforcement is formed with a silicone resin-based potting material.