Emergency core cooling system and boiling water nuclear plant

The invention claimed is: 1. An emergency core cooling system of a boiling water nuclear plant, comprising: four active safety divisions exclusively used for an active emergency core cooling system, each of the active safety divisions including only one motor-driven low pressure core cooling system so as to reduce a volume of a building housing the low pressure core cooling system; and one or more passive safety divisions including a passive safety system that does not require motor drive, wherein a number of the active safety divisions is larger by two or more than a number required upon occurrence of a design basis accident, each of the active safety divisions includes an emergency power source for supplying electric power to the motor-driven low pressure core cooling system, and the passive safety system is configured to cool a core of the boiling water nuclear plant for at least 8 hours during an accident without being replenished with cooling water from outside. 2. The emergency core cooling system according to claim 1 , wherein a number of the passive safety divisions is one, the only one motor-driven low pressure core cooling system of each of the active safety divisions exclusively used for the active emergency core cooling system is a low pressure core cooling system that is also used as a residual heat removal system, the low pressure core cooling system has at least 100% of an injection capacity required for cooling the core upon occurrence of at least the design basis accident in a state where a reactor pressure is low, the residual heat removal system has at least 50% of a heat removal capacity required for cooling the core and a containment vessel upon occurrence of the design basis accident, and the passive safety division includes at least an isolation condenser. 3. The emergency core cooling system according to claim 1 , wherein the emergency power source of each of the active safety divisions is an emergency diesel generator. 4. The emergency core cooling system according to claim 1 , further comprising at least one auxiliary power source configured to selectively supply power to any one of the active safety divisions. 5. The emergency core cooling system according to claim 4 , wherein the auxiliary power source is a gas turbine generator. 6. The emergency core cooling system according to claim 1 , further comprising: an auxiliary feed water system including one or more turbine-driven reactor core isolation cooling systems driven by main steam supplied from the boiling water reactor. 7. The emergency core cooling system according to claim 1 , wherein the passive safety division includes a passive containment cooling system. 8. The emergency core cooling system according to claim 7 , wherein the passive safety division includes a gravity-driven cooling system. 9. The emergency core cooling system according to claim 7 , wherein at least one of the active safety divisions includes a direct current power source and an equalized pressure flooder system driven by the direct current power source. 10. The emergency core cooling system according to claim 1 , wherein the passive safety system includes at least one isolation condenser that holds a predetermined volume of cooling water, the predetermined volume configured to cool the core of the boiling water nuclear plant for at least 8 hours during the accident without being replenished with cooling water from outside. 11. A boiling water nuclear plant provided with an emergency core cooling system, the emergency core cooling system including: four active safety divisions exclusively used for an active emergency core cooling system, each of the active safety divisions including only one motor-driven low pressure core cooling system so as to reduce a volume of a building housing the low pressure core cooling system; and one or more passive safety divisions including a passive safety system that does not require motor drive, wherein a number of the active safety divisions is larger by two or more than a number required upon occurrence of a design basis accident, each of the active safety divisions includes an emergency power source for supplying electric power to the motor-driven low pressure active safety system, and the passive safety system is configured to cool a core of the boiling water nuclear plant for at least 8 hours during an accident without being replenished with cooling water from outside.