Patent ID: 9413206
Filing Date: 2016-08-09
CPC Classification: F24D,F24H,H02K,Y02B,Y02E

Claim Text:
1. A cogeneration apparatus having a power generation unit equipped with a power generator adapted to be connected to an AC power feed line at a location between a commercial power network and an electric load, an internal combustion engine adapted to drive the generator, and a hot water tank connected to the engine through a heat exchanger, comprising: a first pump provided at a first flow channel connecting the engine to the heat exchanger, adapted to force an engine cooling water heated by the engine to flow to the heat exchanger and to force the engine cooling water cooled by the heat exchanger to flow to the engine through the first flow channel, and adapted so that a flow rate of the first pump is continuously changed; a first temperature sensor adapted to produce an output indicative of a temperature of the engine cooling water heated by the engine; a first controller adapted to control the flow rate of the first pump based on the detected temperature of the engine cooling water detected by the first temperature sensor; a second pump provided at a second flow channel connecting the heat exchanger to the hot water tank, and adapted to force a tap water from the hot water tank to flow to the heat exchanger and to force the tap water heated by the heat exchanger to flow to the hot water tank through the second flow channel; a second temperature sensor adapted to produce an output indicative of a temperature of the engine cooling water cooled by the heat exchanger and flowing to the engine through the first flow channel; a temperature difference determiner that determines a temperature difference between the detected temperature of the engine cooling water detected by the first temperature sensor and the detected temperature of the engine cooling water detected by the second temperature sensor; and a second controller adapted to control a flow rate of the second pump based on the determined temperature difference, wherein the first controller is adapted to start an operation of the first pump with the flow rate of the first pump controlled to a rated minimum flow rate, and wherein the second controller is adapted to start an operation of the second pump when the detected temperature of the engine cooling water detected by the first temperature sensor is equal to or greater than a predetermined fifth temperature after the operation of the first pump is started, and to control the flow rate of the second pump based on the determined temperature difference in such a manner that the flow rate is increased when the determined temperature difference is equal to or greater than a predetermined third temperature, while the flow rate is decreased when the determined temperature difference is equal to or smaller than a predetermined fourth temperature after starting the operation of the second pump.