CN209801436U - Multiplex heat engine energy system - Google Patents

Abstract

The utility model discloses a multiplex heat engine energy system, it includes: the combustor is used for starting the combustor to burn so as to derive a first heating medium, a second heating medium and a third heating medium with high heat, and the combustor is respectively and independently provided with a first heating medium output pipe, a second heating medium output pipe and a third heating medium output pipe so as to transmit heat energy outwards respectively; one end of the first heating medium output pipe and one end of the second heating medium output pipe are respectively connected to a physicochemical reaction chamber, and the physicochemical reaction chamber is loaded with organic wastes for carrying out high-temperature curing and stirring operation; the third heat medium output pipe is independently connected with a heat medium energy conversion unit for energy conversion operation; accordingly, integration of multiple components of the heat engine is achieved.

Description

Multiplex heat engine energy system

Technical Field

The present invention relates to energy processing, and more particularly to a multi-energy heat engine energy system.

Background

at present, heat engine energy is widely used, such as for curing and stirring operation of various raw materials, or for heating and stirring waste materials such as sludge of organic waste materials, agriculture, forestry, animal husbandry, and livestock industry, etc., to reduce or reproduce organic fertilizers, and even for generating electricity by using heat energy, the thermal application is limited to single-function operation in the past, and an effective integrated system application is lacked, so that the operation process often causes loss of a lot of energy, and the energy cannot be fully utilized.

SUMMERY OF THE UTILITY MODEL

the present invention provides a multi-work heat engine energy system, which can realize the integration of multiple components in the system, thereby greatly improving the efficiency and reducing the energy consumption.

the utility model relates to a multiplex heat engine energy system includes: the combustion chamber is used for starting the combustion of the combustor to generate a first heating medium, a second heating medium and a third heating medium, and a first heating medium output pipe, a second heating medium output pipe and a third heating medium output pipe which are respectively and independently arranged; the two ends of the first heating medium output pipe and the two ends of the second heating medium output pipe are respectively connected to a physicochemical reaction chamber and a combustion chamber, and organic wastes can be loaded in the physicochemical reaction chamber; one end of the third heat medium output pipe is connected with the combustion chamber, and the other end is independently connected with a heat medium energy conversion unit so as to complete the energy conversion operation; hereby, an integration of the components of the heat engine is achieved.

The multi-work heat engine energy system is characterized in that the physicochemical reaction chamber is internally connected with a heat exchanger, the heat exchanger is internally provided with a heat exchange space and a heat medium pipeline, and the heat medium pipeline is connected and combined with a second heat medium output pipe in series so as to bear the energy of the second heat medium and supply high-temperature hot air derived from the heat exchange space.

the multi-work heat engine energy system is characterized in that the physicochemical reaction chamber is internally connected with a heat energy exchanger, the heat energy exchanger is connected and combined with the second heating medium output pipe in series to generate high-temperature hot air, and a blowing unit is arranged at the upper position of the heat energy exchanger to provide preset wind power to push the high-temperature hot air to be introduced into the physicochemical reaction chamber.

Drawings

FIG. 1 is a front plan view of a combination of the preferred embodiments of the present invention

in the figure:

10 a combustion engine; 20 a combustion chamber; 21 a first heating medium output pipe; 22 a second heating medium output pipe;

23 a third heating medium output pipe; a 24 vapor line; 30 physicochemical reaction chambers; 31 a stirring member;

a 32 prime motor; 33 a bucket elevator; 34 a conveyor belt; 35 a storage bucket; 40 a thermal energy exchanger;

41 heat medium pipelines; 42 a heat exchange space; 43 a blower unit; a 50 steam energy conversion device;

A, a first heating medium; b, a second heating medium; c, a third heating medium.

Detailed Description

First, please refer to fig. 1, the present invention provides a multi-functional heat engine energy system, which mainly comprises: a combustor 10, a combustion chamber 20, a physicochemical reaction chamber 30, a thermal energy exchanger 40 and a steam energy conversion device 50, wherein:

The combustor 10 is for an ignition combustion operation of a predetermined fuel, which is supplied as heavy oil or biomass material;

The combustion chamber 20 is connected in series with the combustion engine 10 to provide the combustion engine 10 with a first heating medium a, a second heating medium B and a third heating medium C for deriving predetermined high heat, and is provided with a first heating medium output pipe 21, a second heating medium output pipe 22 and a third heating medium output pipe 23 respectively and independently, so that heat energy is transmitted outwards; wherein the first heat medium output pipe 21 is connected with the combustion chamber 20 so as to receive the main heat energy of internal combustion, the second heat medium output pipe 22 is connected with the high-heat smoke derived from the combustion, a predetermined steam pipeline 24 is independently arranged in the combustion chamber 20 so as to generate high-pressure high-temperature steam, and the tail end of the steam pipeline 24 is connected and combined with the third heat medium output pipe 23 in series so as to transmit the high-temperature high-pressure steam energy outwards;

The reaction chamber 30 is designed as a material mixing tank, and has a predetermined mixing member 31 driven by a prime motor 32 to load organic waste for high temperature curing and mixing operation, and a bucket elevator 33 and a conveyor belt 34 connected to a storage tank 35 at one side frame to provide output and storage capacity for high temperature cured material;

The heat exchanger 40 is disposed above the physicochemical reaction chamber 30, and comprises a heat medium pipeline 41 made of a heat conduction material, the heat medium pipeline 41 is connected in series with the second heat medium output pipe 22 to receive the input of the second heat medium B, which is the high-temperature gas derived by the combustion of the burner 10 in this embodiment; a heat exchange space 42 for allowing air to slowly flow is formed in the middle section of the heat medium pipeline 41 in a predetermined zigzag extension, so that the second heat medium B conducts heat exchange to derive internal high-temperature hot air; the heat exchanger 40 is further provided at an upper position thereof with a blower unit 43 for supplying a predetermined wind force to push the hot air of high temperature into the physicochemical reaction chamber 30.

The steam energy conversion device 50 is used for carrying steam with predetermined high-temperature and high-pressure energy, and is connected in series with one end of the steam pipeline 24, and can be set as a steam generator set for power generation application or steam cooking system application related to food processing such as boiled eggs, candied eggs, egg powder, chicken essence and the like according to requirements.

Thus, by the above combination, the multi-work heat engine energy system of the present invention is obtained, wherein the combustion chamber 20 generates the high heat combustion smoke (i.e. the second heating medium B) with pollution property due to combustion, in the present embodiment, by the concentration of the coating of the second heating medium output pipe 22, a heat exchange space 42 for allowing air to slowly flow is formed by the middle section of the heating medium pipe 41 extending in a zigzag manner through the heat exchanger 40, the heat energy indirectly heated by the second heating medium B is used for deriving the high-temperature hot air inside, and the blower unit 43 arranged at the upper part is used for pushing the pure high-temperature hot air to be guided into the physicochemical reaction chamber 30 for heating, meanwhile, the main combustion heat energy received by the first heating medium output pipe 21 is applied to the physicochemical reaction chamber 30 to load organic waste for high-temperature curing and stirring, so as to accelerate the production of biomass energy materials or completely decomposed compost.

To sum up, the utility model discloses multiplex heat engine energy system improves each item thermotechnical benefit and reduces the energy consume through the integrated operation of multicomponent greatly.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (3)

1. A multiplex heat engine energy system, comprising: the combustion chamber is used for starting the combustion of the combustor to generate a first heating medium, a second heating medium and a third heating medium, and a first heating medium output pipe, a second heating medium output pipe and a third heating medium output pipe which are respectively and independently arranged; the two ends of the first heating medium output pipe and the two ends of the second heating medium output pipe are respectively connected to a physicochemical reaction chamber and a combustion chamber, and organic wastes can be loaded in the physicochemical reaction chamber; one end of the third heat medium output pipe is connected with the combustion chamber, and the other end is independently connected with a heat medium energy conversion unit.

2. The multi-work heat engine energy system of claim 1, wherein the physicochemical reaction chamber is internally connected with a heat exchanger, the heat exchanger is internally provided with a heat exchange space and a heat medium pipeline, and the heat medium pipeline is connected with the second heat medium output pipe in series for receiving the energy of the second heat medium.

3. the multi-work heat engine energy system according to claim 1, wherein the physicochemical reaction chamber is internally connected with a heat energy exchanger, the heat energy exchanger is connected in series with the second heat medium output pipe to generate high temperature hot air, and a blowing unit is arranged on the heat energy exchanger.