WO2011015034A1 - Wind-heating heat supplying system - Google Patents

Abstract

A wind-heating heat supplying system includes a wind energy system, a heat generating device, an auxiliary heating system, a heat storage system and a control system. The wind energy system transforms wind energy into mechanical energy, and the heat generating device transforms mechanical energy into heat energy which is transferred into the heat storage system. When heat energy is insufficient, the auxiliary heating system is started to fulfill the demand of heat supply, so that reasonable utilization of the energy in the system is achieved. The wind-heating heat supplying system uses wind to generate heat directly, and stores and transfers heat energy to the outside by water.

Description

 Wind-heating heating system

 Technical field

 The invention relates to a heating device, in particular to a wind-heating heating system.

 Background technique

 Resources and the environment are the basic conditions for human survival and development. The energy used in today's world energy structure is basically fossil energy. Fossil energy will pollute the environment during its use and it will not be sustainable.

 Wind energy is one of the most likely sources of large-scale development and utilization in the near future. Wind energy is clean and sustainable. The use of wind power for power generation has been greatly developed, but the energy form that is ultimately required in many applications is thermal energy. For hot water or heating systems such as baths, homes, and restaurants, low-grade heat is required. If wind energy is converted into electrical energy and then converted into thermal energy, not only the equipment is complicated, the cost is high, and the efficiency is low. The direct thermal efficiency of wind power is much higher, up to 40%, which is the most efficient form of wind energy utilization in all forms of wind energy utilization. At present, the direct wind heating method is as follows:

 1 Hydraulic: The wind turbine output shaft drives the hydraulic pump to rotate. The hydraulic and orifice holes cooperate to generate heat. The characteristics are stable, and the working quality should be selected among the oils.

 2 compressed air: The wind turbine drives the air compressor. Low cost, safe, simple, efficient, and adaptable to a wide range of pressures. The downside is that the pressure is pulsating.

 3 Solid friction heating: The wind turbine output shaft drives the friction plate, which generates heat by friction. Simple structure, but worn

 4 Stirring liquid heating: The wind turbine drives the agitator rotor, and the rotor blades agitate the heat carrier medium in the liquid container. The price is cheap, the volume is small, and the power factor is large. This method is the most efficient.

 However, at present, there is no heating system for direct heating in hotels, baths and homes. This mainly involves the operation mode of the system, the control scheme and the equipment used.

 Summary of the invention

 The invention is directed to the problem of low efficiency and high cost of utilizing wind energy heating in the current heating system, and proposes a wind heating heating system, which adopts direct wind heating to form a bathing place, a hotel, a hotel, a family, etc. Hot water supply system or heating system, reasonable control scheme, greatly improve energy utilization and low cost of use.

The technical solution of the present invention is: a wind-heating heating system, comprising a wind energy system, a heating device, an auxiliary heating system, a heat storage system, a control system, the wind energy system including a wind turbine, a gear transmission system and a shifting system, The heat exchanger comprises a drive shaft, a stirring blade, a container, the container is filled with water, the stirring blade is in the container, the heater is an auxiliary heating system, the water storage tank is a heat storage system, and the control system comprises a first temperature sensor placed in the water storage tank. And a first level sensor, a second temperature sensor and a second level sensor placed in the heater vessel, a signal processing circuit, a drive circuit, a return pump, a drain pump, an inlet valve, a drain valve, a wind turbine wheel The shaft is sequentially connected with the gear transmission system and the shifting system. The shifting system is connected to the drive shaft in the heat exchanger, and the drive shaft drives the stirring blade to rotate. The heat exchanger and the water storage tank are connected by a drain pump and a return pump, and the upper end of the heater Connected to the external water supply system through the inlet valve, the storage tank is equipped with a heater, and the bottom of the storage tank passes through the drain valve to the user end, , Two temperature sensors, the first and second input signal level to the sensor signal processing circuit, the signal processing circuit outputs signals to the drive circuit, the drive circuit outputs a signal to reflux pump, drain Pump, inlet valve, drain valve.

 The beneficial effects of the invention are as follows: The wind-heating heating system of the invention adopts the direct heat of the wind, stores heat through the water and transmits the heat energy, and the system has the advantages of small volume, high energy conversion rate and low price.

 DRAWINGS

1 is a structural block diagram of a wind heating heating system of the present invention.

 detailed description

 The block diagram of the wind-heating heating system shown in Figure 1 consists of a wind energy system, a heat generator, an auxiliary heating system, a heat storage system, and a control system:

 Wind energy system: including wind turbine, gear transmission system 2 and shifting system 3, when the wind blows through the wind turbine, the wind turbine wind wheel 1 rotates to obtain wind energy, and the rotating wind wheel 1 drives the associated shaft to rotate, and the wind energy Turning to mechanical energy, this rotational mechanical energy is transferred to the heat exchanger 4 via the gear transmission system 2 and the shifting system 3.

 Heater 4: Including the drive shaft, the stirring blade, the container, the container is filled with water, and the stirring blade is in the container. The wind energy system converts wind energy into mechanical energy to drive the agitating blades to rotate through the drive shaft. The agitating blades rub against the water in the container to generate heat, which causes the temperature of the water in the container to rise, thereby heating the water and converting the mechanical energy into heat.

 Auxiliary heating system: The electric heater 11 is used as an auxiliary heating system to heat the water when the wind is insufficient.

 Thermal storage system: Store heat in the storage tank 9. When the heat is sufficient, the power system can be turned off or adjusted to make full use of the waste heat.

 Control system: including temperature sensor T2 and liquid level sensor L2 placed in the heat exchanger container, temperature sensor ΤΊ and liquid level sensor L1 placed in the water storage tank, signal processing circuit, drive circuit, return pump 5, drain pump 6 The water inlet valve 8 and the drain valve 10 are used to control the water temperature of the whole system. There is a drain pump 6 and a return pump 5 between the heater 4 and the water storage tank 9, and the upper end of the heater 4 passes through the water inlet 8 and the water supply system. Connected, the water tank 9 is provided with a heater 11, and the bottom of the water storage tank 9 provides a heat source through the drain 10 to the user end.

 Control method: Each sensor value is sent to the signal processing circuit for processing. When the water temperature T2 in the container of the heater 4 reaches the set value, the signal processing circuit sends a signal to the drive circuit to open the drain pump 6; when the heater 4 is in the container The temperature T2 of the water is the same as the temperature 水 of the water in the water storage tank 9, and the drain pump 6 is turned off when the liquid level L1 of the water storage tank is higher than the set value; when the liquid level L1 in the water storage tank 9 is higher than the set value, the reflux pump 5 is turned on. The heat exchanger 4 container discharges water; the water temperature of the water storage tank 9 is lower than the set value, and when the water temperature T2 in the heat exchanger container is lower than the set value, the electric heater 11 is activated to heat the water storage tank 9; When the middle liquid level L2 is lower than the set value, the inlet valve 8 is opened to discharge water into the container of the heater 4.

Claims

Rights request:

 1. A wind-heating heating system comprising a wind energy system, a heat generator, an auxiliary heating system, a heat storage system, a control system, characterized in that the wind energy system comprises a wind turbine, a gear transmission system and a shifting system, and is heated The utility model comprises a drive shaft, a stirring blade and a container, wherein the container is filled with water, the stirring blade is in the container, the heater is an auxiliary heating system, the water storage tank is a heat storage system, and the control system comprises a first temperature sensor placed in the water storage tank and a first level sensor, a second temperature sensor and a second level sensor placed in the heater vessel, a signal processing circuit, a drive circuit, a return pump, a drain pump, a water inlet, a drain valve, and a wind turbine wheel The shaft is sequentially connected with the gear transmission system and the shifting system. The shifting system is connected to the drive shaft in the heat exchanger, and the drive shaft drives the stirring blade to rotate. The heat exchanger and the water storage tank are connected by a drain pump and a return pump, and the upper end of the heat exchanger is passed. The inlet water is connected to the external water supply system, and the water storage tank is equipped with a heater. The bottom of the water storage tank passes through the drain valve to the user end. First and second temperature sensors, the first and second input signal level sensor signal processing circuit for processing everywhere, the signal processing circuit outputs signals to the drive circuit, the drive circuit outputs a signal to reflux pump, drain pump, inlet valve, the drain valve.