Abstract: An exhaust turbine power generating system includes an internal combustion engine, an exhaust turbine power generator configured to perform electric power generation by rotating a turbine by using exhaust gas from the internal combustion engine, and an electronic control unit. The electronic control unit is configured to perform electric power generation control in which the exhaust turbine power generator is caused to perform electric power generation by controlling the exhaust turbine power generator and the electronic control unit is configured to perform powering control in which the exhaust turbine power generator is caused to perform powering such that the turbine is rotated by controlling the exhaust turbine power generator until a predetermined termination condition is satisfied after the internal combustion engine is started.

Abstract: An exhaust turbine power generating system includes an internal combustion engine, an exhaust turbine power generator configured to perform electric power generation by rotating a turbine by using exhaust gas from the internal combustion engine, and an electronic control unit. The electronic control unit is configured to perform electric power generation control in which the exhaust turbine power generator is caused to perform electric power generation by controlling the exhaust turbine power generator and the electronic control unit is configured to perform powering control in which the exhaust turbine power generator is caused to perform powering such that the turbine is rotated by controlling the exhaust turbine power generator until a predetermined termination condition is satisfied after the internal combustion engine is started.

Abstract: A lithium primary battery includes a positive electrode 1 using iron sulfide as a positive electrode active material, a negative electrode 2 using a lithium alloy as a negative electrode active material, an electrode group 4 formed by winding the positive and negative electrodes 1, 2 with a separator 3 being interposed therebetween, and a non-aqueous electrolytic solution. The lithium alloy contains at least one of magnesium or tin in a range of 0.02-0.2 mol %.

Abstract: A conveyance device, which conveys wafers in a casing 30, includes a primary blowing fan 17 that generates airflow within the casing 30 in a first direction; a discharge opening 26 that is located at a downstream side of the airflow generated by the primary blowing fan 17, is interconnected with the interior of the casing 30, and discharges gases at the interior of the casing 30 outside of the casing 30; a base 18d that is supported by a gate-shaped conveyance arm 22 disposed within the casing 30 and moves within the casing 30 at the upstream side of the discharge opening 26 and at the downstream side of the primary blowing fan 17; an end effector 21 that is located at the base 18d and that carries wafers; and a blowing fan 19 that is located at the base and that generates airflow in the first direction.

Abstract: Provided is a film forming apparatus for forming a film on a substrate maintained within a film forming container by supplying a raw material gas to the substrate. The film forming container includes a substrate maintaining unit, a supply mechanism configured to include a supply pipe with supply holes formed thereon to supply a raw material gas to the interior of the film forming container through the supply holes, an exhaust mechanism configured to include an exhaust pipe with exhaust holes formed thereon to exhaust gas from the interior of the film forming container through the exhaust holes, and a controller configured to control the substrate maintaining unit, the supply mechanism, and the exhaust mechanism. The supply holes and the exhaust holes are formed to face each other with the substrate maintained in the substrate maintaining unit interposed therebetween.

Abstract: A conveyance device, which conveys wafers in a casing 30, includes a primary blowing fan 17 that generates airflow within the casing 30 in a first direction; a discharge opening 26 that is located at a downstream side of the airflow generated by the primary blowing fan 17, is interconnected with the interior of the casing 30, and discharges gases at the interior of the casing 30 outside of the casing 30; a base 18d that is supported by a gate-shaped conveyance arm 22 disposed within the casing 30 and moves within the casing 30 at the upstream side of the discharge opening 26 and at the downstream side of the primary blowing fan 17; an end effector 21 that is located at the base 18d and that carries wafers; and a blowing fan 19 that is located at the base and that generates airflow in the first direction.

Abstract: A lithium primary battery includes a positive electrode 1 using iron sulfide as a positive electrode active material, a negative electrode 2 using a lithium alloy as a negative electrode active material, an electrode group 4 formed by winding the positive and negative electrodes 1, 2 with a separator 3 being interposed therebetween, and a non-aqueous electrolytic solution. The lithium alloy contains at least one of magnesium or tin in a range of 0.02-0.2 mol %.

Abstract: A lithium primary battery including: a positive electrode 1 using iron disulfide as a positive electrode active material, wherein the positive electrode 1 includes a positive electrode mixture containing the positive electrode active material and a conductive agent, and a positive electrode core which is made of a porous metal member, and is filled with the positive electrode mixture, the iron disulfide has an average particle size of 20-50 ?m, the conductive agent has a specific surface area of 300 m2/g or larger, and the iron disulfide and the conductive agent in the positive electrode mixture are mixed in a mass ratio of 97:3-93:7.

Abstract: Provided is a film forming apparatus for forming a film on a substrate maintained within a film forming container by supplying a raw material gas to the substrate. The film forming container includes a substrate maintaining unit, a supply mechanism configured to include a supply pipe with supply holes formed thereon to supply a raw material gas to the interior of the film forming container through the supply holes, an exhaust mechanism configured to include an exhaust pipe with exhaust holes formed thereon to exhaust gas from the interior of the film forming container through the exhaust holes, and a controller configured to control the substrate maintaining unit, the supply mechanism, and the exhaust mechanism. The supply holes and the exhaust holes are formed to face each other with the substrate maintained in the substrate maintaining unit interposed therebetween.