CN214273750U - Comprehensive energy utilization system for brewhouse - Google Patents

Abstract

The utility model discloses a comprehensive energy utilization system for making wine factory, utilize the system including solar energy, natural gas system and living beings recycle the system, utilize the system by solar energy, natural gas system and living beings recycle the system and use clean energy for making wine factory heat supply, cooling and power supply, wherein the living beings recycle the system and will make by-product fermentation such as the making wine residue that the wine factory produced and produce marsh gas, and utilize marsh gas power generation and heat, the system inserts the electric wire netting, directly supplies power for the system when clean energy is not enough to satisfy the power consumption demand in the production process.

Description

Comprehensive energy utilization system for brewhouse

Technical Field

The utility model relates to a distributed energy utilization field especially relates to a comprehensive energy utilization system for making wine factory.

Background

Along with the development of economy, the quality of liquor is continuously upgraded, the energy consumption of a brewhouse is gradually improved, the energy conservation and emission reduction of the existing brewhouse are generally not realized, and the problem of energy waste is serious day by day. In order to ensure the quality of wine brewing, the wine brewing industry has higher requirements on the environmental temperature and the humidity, the steps of cooling, distilling, temperature control and the like have huge requirements on energy, depend on fossil energy excessively, and inevitably cause the waste of energy and environmental pollution.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing an energy utilization system that provides required most energy and can carry out reutilization to making wine residue for the brewing factory with clean energy.

The technical scheme is as follows: the utility model discloses a comprehensive energy utilization system for making wine factory includes for making wine pond and other solar energy utilization system, natural gas system and the living beings system of recycling of supplying heat and power with the electrical equipment in the factory.

The solar energy utilization system comprises a solar photovoltaic power generation system and a solar heat collection system; the natural gas system comprises a gas turbine and a gas boiler which are connected to a natural gas network, a waste heat boiler, a steam turbine and a generator, wherein the gas turbine is connected with the waste heat boiler and the generator, the generator is driven to generate electricity by burning natural gas, waste heat generated in the power generation process is supplied to the waste heat boiler, the waste heat boiler is connected with an absorption refrigeration system and the steam turbine, heat energy required by circulation is supplied to the absorption refrigeration system, and high-temperature flue gas used for power generation is conveyed to the steam turbine; the biomass recycling system comprises a biogas fermentation tank, a gas storage tank, a biogas power generation system, a biogas boiler and a biogas torch, wherein the biogas fermentation tank is used for fermenting byproducts in the production process of the brewery to generate biogas, the gas storage tank is connected with the fermentation tank to store the biogas and supply the biogas to the biogas power generation system and the biogas boiler, and the biogas torch is used for burning redundant biogas.

The comprehensive energy utilization system also comprises a storage battery, a heat collector, an electric refrigerating system and an absorption refrigerating system, wherein the storage battery is connected with the solar photovoltaic power generation system and stores electric energy generated by the solar photovoltaic power generation system, is connected with the electric equipment and the brewing tank and supplies power to the electric equipment and the brewing tank, and the heat collector is connected with the solar heat collection system, the gas-fired boiler and the methane boiler and stores heat energy generated by the solar heat collection system, the gas-fired boiler and the methane boiler and is connected with the brewing tank and supplies heat to the brewing tank; the electric refrigerating system and the absorption refrigerating system are used for adjusting the temperature of the brewing pool or supplying cold for cold equipment, the absorption refrigerating system is connected with the solar heat collecting system and the waste heat boiler and used for refrigerating circulation by utilizing heat energy provided by the absorption refrigerating system, and the electric refrigerating system is connected with the steam turbine, the gas generator and the methane generating system.

Has the advantages that: compared with the prior art, the utility model has the advantages of as follows: utilize clean energy solar energy, biomass energy and natural gas for can the big brewage energy demand supply, can guarantee the stability of making wine pond temperature, humidity when satisfying the basic ability demand of power consumption in factory, saved the consumption of fossil energy in a large number, reduced the power consumption cost of brewage, recycled the making wine residue when having realized that the multipotency source is complementary, the energy cascade utilizes, reduced the wasting of resources and to the pollution of environment.

Drawings

Fig. 1 is a system structure diagram of the present invention.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1, energy-consuming equipment in a brewery plant area includes a brewing pool and other electric equipment, and the brewing pool needs to keep temperature and humidity stable during working to ensure fermentation activity, so that not only electric energy needs to be consumed, but also heat and cold needs to be supplied to the brewing pool. The utility model discloses a comprehensive energy utilization system for making wine factory includes solar energy utilization system, natural gas system and living beings system of recycling, and wherein solar energy utilization system converts solar energy into electric energy and heat energy, and natural gas system uses the natural gas to supply heat and generate electricity for fuel, and biomass recycling system produces marsh gas with the fermentation of living beings such as the making wine residue that the making wine factory produced, and the marsh gas burning is used for supplying heat and generating electricity.

The solar energy utilization system comprises a solar photovoltaic power generation system and a solar heat collection system, the solar photovoltaic power generation system is arranged on the roof of a factory building, the outdoor open ground and the like, solar energy is converted into electric energy by utilizing a solar photovoltaic panel, and the electric energy is provided for a brewing pool and other electrical equipment in the factory, such as brewing pool illumination, brewing pool temperature and humidity control power consumption, plant area living power consumption and the like; the solar heat collection system converts solar radiation energy into heat energy through the solar heat collection plate, and provides heat energy supply for the brewing pool and the absorption refrigeration system.

The natural gas system comprises a gas turbine, a gas boiler, a waste heat boiler, a steam turbine and a generator which are connected with a natural gas network, wherein the gas turbine is connected with the waste heat boiler and the generator and is used for burning natural gas to drive the generator to operate and generate electricity, the generated waste heat provides heat energy for the waste heat boiler, and the waste heat boiler supplies part of the collected heat energy to the absorption refrigeration system for cooling; the natural gas is used as a supplementary energy source, and when the solar power generation system is insufficient in power generation, the natural gas is combusted to drive the gas turbine and the generator to operate, so that stable power supply is provided for a plant area; the gas boiler is connected with the heat collector, provides heat energy for the heat collector by burning natural gas, and supplies heat to a plant area by the heat collector, so that the heat requirement of the plant area is met.

The brewing pool can generate a large amount of brewing residues after brewing, wherein a small part of residues with higher quality can be used as vinasse for brewing other types of wine, most of brewing residues can not be used for secondary brewing, the part of residues can be used as raw materials for biogas fermentation, and biogas is produced for supplying energy to factories, so that the multilevel utilization of resources is realized, and the utilization rate is improved. The fermentation and the reutilization of the brewing residues are completed through a biomass reutilization system, the biomass reutilization system comprises a biogas fermentation tank, a gas storage tank, a biogas power generation system, a biogas boiler and a biogas torch, wherein the biogas fermentation tank is connected with the gas storage tank and is used for fermenting the brewing residues and other biomass residues generated in a plant area to produce biogas, and the produced biogas is stored in the gas storage tank; the residue after biogas fermentation can be used as a byproduct such as fertilizer and the like for output; the biogas power generation system is connected with the gas storage pool, the electric refrigeration system, the biogas boiler and the wine brewing pool, biogas in the gas storage pool is used as a raw material to generate electric energy, the electric refrigeration system is supplied for refrigeration, the wine brewing pool is supplied to meet the use requirement of the electric energy, and the generated heat is transmitted to the heat collector for further heat utilization. The biogas power generation system, the solar photovoltaic power generation system, the natural gas and gas turbine power generation system and the power grid power supply complement each other, so that the power demand in the factory area of the brewery is ensured, and the safety and stability of power utilization are ensured; the methane boiler is connected with the gas storage tank and the heat collector and is used for burning methane to produce heat energy, and the produced heat energy is transmitted to the heat collector to provide heat energy and meet heat requirements; the biogas boiler, the gas boiler and the solar heat collecting system complement each other, so that the heat utilization stability in a plant area is ensured, and the brewing quality and safety are ensured; the biogas torch is connected with the gas storage pool, when the biogas in the gas storage pool is excessive, the excessive biogas is burnt by the torch, and the excessive biogas is consumed in advance. The safety of the gas storage tank can be ensured, the safety is improved, and the odor pollution of the methane can be eliminated.

Claims (7)

1. An integrated energy utilization system for a brewery, which is characterized by comprising a solar energy utilization system, a natural gas system and a biomass recycling system, wherein the solar energy utilization system supplies heat and power to a brewing pool and other electric heat equipment in the brewery.

2. The integrated energy utilization system for a brewery according to claim 1, wherein the solar energy utilization system comprises a solar photovoltaic power generation system and a solar heat collection system.

3. The integrated energy utilization system for the brewery according to claim 1, wherein the natural gas system comprises a gas turbine and a gas boiler, a waste heat boiler, a steam turbine and a generator which are connected to a natural gas network, the gas turbine is connected with the waste heat boiler and the generator, the generator is driven to generate electricity by burning natural gas, waste heat generated in the electricity generation process is supplied to the waste heat boiler, the waste heat boiler is connected with the absorption refrigeration system and the steam turbine, heat energy required by circulation is supplied to the absorption refrigeration system, and high-temperature flue gas used for electricity generation is supplied to the steam turbine.

4. The integrated energy utilization system for the brewery according to claim 1, wherein the biomass recycling system comprises a biogas fermentation tank, a gas storage tank, a biogas power generation system, a biogas boiler and a biogas torch, the biogas fermentation tank is used for fermenting byproducts generated in the production process of the brewery to generate biogas, the gas storage tank is connected with the fermentation tank to store the biogas and supply the biogas power generation system and the biogas boiler, and the biogas torch is used for burning redundant biogas.

5. The integrated energy utilization system for the brewery according to claim 1, wherein the integrated energy utilization system for the brewery comprises a storage battery and a heat collector, the storage battery is connected with a solar photovoltaic power generation system and stores heat energy generated by the solar photovoltaic power generation system, is connected with an electric device and a brewing tank and supplies power to the electric device and the brewing tank, and the heat collector is connected with the solar heat collection system, a gas boiler and a methane boiler and stores heat energy generated by the solar photovoltaic power generation system, the gas boiler and the methane boiler and is connected with the brewing tank and supplies heat to the brewing tank.

6. The integrated energy utilization system for the brewery according to claim 1, wherein the integrated energy utilization system for the brewery comprises an electric refrigeration system and an absorption refrigeration system, the electric refrigeration system is used for adjusting the temperature of a brewing pool or supplying cold for cold equipment, the absorption refrigeration system is connected with a solar heat collection system and a waste heat boiler and is used for refrigeration circulation by using heat energy provided by the solar heat collection system and the waste heat boiler, and the electric refrigeration system is connected with a steam turbine, a gas generator and a methane power generation system.

7. The integrated energy utilization system for a brewery according to claim 1, wherein the integrated energy utilization system is connected to an electrical grid, and is powered directly by the electrical grid when the electrical energy provided by the solar energy utilization system, the natural gas system and the biomass recycling system does not meet production requirements.

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