Intelligent energy diversified operation management system
Technical Field
The invention relates to the technical field of intelligent energy, in particular to an intelligent energy diversified operation management system.
Background
In order to adapt to new trend and new requirement of civilization evolution, human beings must fundamentally solve the power puzzlement of civilization, realize the safety, stability, cleanness and perpetual utilization of energy, the intelligent energy is the intelligence and capability of fully developing human beings, and through continuous technological innovation and system transformation, the intelligent unique to human beings is converged in the whole process of energy development, utilization, production and consumption and each link, and the energy technology and energy system meeting the requirements of ecological civilization and sustainable development are established and perfected, so that a brand new energy form is presented. In short, the intelligent energy source is an energy source form which has human brain functions such as self-organization, self-checking, self-balancing, self-optimizing and the like and meets the requirements of system, safety, cleanness and economy.
At present, although the utilization of material energy can realize high-efficiency energy conservation, the energy consumption monitoring of energy units in a factory can not realize dynamic monitoring and energy consumption statistics, the energy consumption data information of each energy unit needs to be acquired and recorded singly, the acquired data information needs to be subjected to energy efficiency assessment, energy audit and public indication manually, and further the balance utilization of each energy unit can not be comprehensively managed, and the phenomenon of energy waste can not be generated timely.
Disclosure of Invention
(One) solving the technical problems
Aiming at the defects of the prior art, the intelligent energy diversified operation management system provided by the invention has the advantages that the abnormal use and leakage phenomena of energy are timely found out through the on-line real-time monitoring and statistical analysis of the energy consumption data of the energy units by the deep acquisition of the energy consumption data of the energy units, the real-time data support is provided for the energy saving and consumption reduction and self-perfecting energy saving decision of the factory, the problems that the dynamic monitoring and the energy consumption statistics of the energy consumption units in the factory cannot be realized, the energy consumption data information of each energy unit needs to be singly acquired and recorded, the acquired data information needs to be manually subjected to the energy efficiency evaluation, the energy audit and the public indication, the balance utilization of each energy unit cannot be further planned, and the energy waste phenomenon cannot be timely found out are solved.
(II) technical scheme
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an wisdom energy diversified operation management system, includes control center distribution substation, emergency power source, control center host computer, wireless communication unit, user terminal data center, electric energy monitor station, gas can monitor station and hydroenergy monitor station, the control host computer passes through wireless communication unit and electric energy monitor station, gas can monitor station and hydroenergy monitor station signal connection, the power supply port of control center distribution substation passes through wire and the power source electric connection of control center host computer, the power supply port of emergency power source passes through wire and the dispatcher electric connection in the control center host computer, be equipped with consumer management subsystem, equipment electricity consumption detail collector and equipment electricity consumption data storage in the electric energy monitor station, be equipped with gas equipment management subsystem and tail gas emission monitor storage in the gas can monitor station, be equipped with water equipment management subsystem, waste water emission information acquisition assembly and waste water energy recovery device in the hydroenergy monitor station.
Preferably, the electric equipment management subsystem comprises an electric equipment parameter input device, an equipment working parameter collector, a multi-power supply unit and a multi-power supply converter, wherein the electric equipment parameter input device records equipment model numbers and rated design powers of main energy consumption equipment, performs classified input on all recorded energy consumption equipment in a factory area according to electric load properties and electricity consumption areas, generates a normal, clear and complete log of the energy consumption equipment in an electric energy monitoring station, the generated log has adjustable, maintainable, monitoring and readable properties, the equipment working parameter collector collects dynamic energy consumption data information of the energy consumption of all the energy consumption equipment in the factory area, transmits the energy consumption data to the electric energy monitoring station in three sections of time intervals of valley dividing, normal and peak dividing, and transmits the energy consumption information to a monitoring center host through a wireless communication unit, and the energy consumption equipment in the factory area of the monitoring center host analyzes, screens and classifies the energy consumption equipment and then transmits signals to the multi-power supply converter, and switches the power supply modes of the energy consumption equipment.
Preferably, the electricity consumption detail collector of the equipment collects the electricity consumption changes of all the energy consumption equipment in standby, no-load, full load and overload, collected data information is summarized and then transmitted to the electric energy monitoring station through a system main line, the monitoring center host transmits the generated control signal to an automatic control device arranged on the energy consumption equipment through a wireless communication unit to protect the energy consumption equipment, the data collected by the electricity consumption detail collector of the equipment is stored by the electricity consumption data storage of the equipment, and the collected data are displayed in a graph display and report summary mode that any administrator displays the energy consumption of all the energy consumption equipment by energy consumption structures, energy consumption trends and indexes.
Preferably, the gas equipment management subsystem is internally provided with a gas consumption parameter input device, a gas consumption equipment parameter collector, an equipment working parameter collector and a gas supply pipeline safety monitor, the gas consumption equipment parameter input device records the equipment model and the equipment rated design power of main energy consumption equipment, all recorded energy consumption equipment in a factory is classified and input by gas consumption equipment property and gas consumption area, a normal, clear and complete energy consumption equipment log is generated in a gas energy monitoring station system, the generated log has adjustable, maintainable, monitoring and readable properties, the equipment working parameter collector collects dynamic energy consumption data information when all energy consumption equipment in the factory is used, and transmits the energy consumption data to a gas energy monitoring station, the gas energy monitoring station receives the gas pressure, the gas flow rate and the gas concentration in a pipeline of the gas supply pipeline safety monitor, and then transmits the data to a monitoring center host, and the monitoring center host generates a signal to a user terminal data center to check through a wireless communication unit at any time.
Preferably, the monitoring sensor group of the exhaust emission monitoring memory is installed on a workshop exhaust emission system pipeline, signals monitored by the monitoring sensor group are transmitted to the monitoring center host through the gas energy monitoring station, the monitoring center host compares data with a gas exhaust emission standard value preset in the system, and after comparison, a control instruction is automatically generated to control the exhaust treatment system in a factory to work so as to treat the exhaust, and the treatment device uses different powers to treat the exhaust according to instructions of the monitoring center host.
Preferably, the water consumption equipment management subsystem comprises a water consumption equipment parameter input device, a water consumption equipment parameter collector, an equipment working parameter collector and a water supply management safety detector, wherein the water consumption equipment parameter input device records equipment model numbers and equipment rated design power of main energy consumption equipment, performs classified input on all recorded energy consumption equipment in a factory area according to water consumption equipment properties and water consumption areas, generates a normal, clear and complete energy consumption equipment log in a water energy monitoring station system, the generated log has adjustable, maintainable, monitoring and readable properties, the equipment working parameter collector collects dynamic energy consumption data information of energy consumption of all the energy consumption equipment in the factory area, and transmits the energy consumption data to a water energy monitoring station, and the water energy monitoring station transmits the data to a monitoring center host after receiving liquid pressure, liquid flow rate and liquid concentration in a pipeline of the air supply pipeline safety monitor.
Preferably, the water-using device parameter entry records the device model number and the rated design power of the device of the main energy-using device, performs grading entry on all recorded energy-using devices in a factory with water load property and water consumption region, generates a standard, clear and complete log of the energy-using device in the system, the generated log has adjustable, maintenance, monitoring and readability, the device working parameter collector collects dynamic energy consumption data information of the energy-using device in the factory, and transmits the energy consumption data to a water energy monitoring station in three sections of intervals of valley time, normal time and peak time, the water energy monitoring station transmits the data to a monitoring center host after receiving the liquid pressure, the liquid flow rate and the liquid temperature in a pipeline of the water supply pipeline safety monitor and the drainage data collected by the waste water drainage information collection component, and the monitoring center host generates a signal to generate a line graph, a pie graph or a bar graph, and one of the signal is supplied to a user terminal data center to view the user terminal data center at any time through the wireless communication unit.
Preferably, when the temperature in the wastewater collected by the wastewater discharge information collection assembly reaches the recoverable temperature, the wastewater energy recovery device exchanges heat and recovers heat energy contained in the wastewater according to information fed back by the monitoring center host, and the recovered heat energy is stored in a carrier form and is supplied to other heating equipment in a factory.
Preferably, the electric energy monitoring station, the gas energy monitoring station and the equipment working parameter collectors arranged in the water energy monitoring station collect working energy consumption data information of the field energy equipment through intelligent meters, provide raw data for energy information management, enable intelligent meters for different energy equipment to support collection and storage management of multi-level energy consumption data in a network interface real plant area such as CDMA3G/4G, and the like, when a network is interrupted or a main memory fails, the data collection equipment continuously collects and stores the energy consumption data through the sub-storage modules in the meters, the collected data is stored locally, and the sub-storage modules continuously upload the energy consumption data to the main memory after the network or the main memory resumes communication.
(III) beneficial effects
Compared with the prior art, the invention provides an intelligent energy diversified operation management system, which has the following beneficial effects:
1. When the intelligent energy consumption monitoring system is used, the types of all energy consumption sub-departments, classification and sub-metering can be distinguished and counted through the central power distribution station, the emergency power supply, the monitoring center host, the wireless communication unit user terminal data center, the electric equipment management subsystem, the equipment electricity consumption detail collector and the electricity consumption data collection memory, the data of the intelligent instrument are transmitted to the monitoring center host through the wireless network, the equipment energy consumption information can be remotely controlled and collected through the user terminal data center, the dynamic monitoring and the energy consumption statistics of the energy consumption equipment can be realized, the collected data can be automatically transmitted and stored, the data support for energy conservation, consumption reduction and energy conservation decision improvement can be provided for a factory, the electric energy generated by wind energy and solar power generation equipment arranged in the factory can be regulated through the multi-power supply unit and the multi-power supply converter which are arranged, the electric energy consumed by the energy and the solar energy generated by the factory can be fully distributed and used for supplying power to equipment in the factory, the electric energy consumed by the energy of the energy consumption equipment can be effectively reduced, the expenditure of the energy consumption of the power supply equipment can be reduced, the power supply mode of the equipment can be automatically switched, and the normal power supply mode of the equipment can be ensured when the power supply equipment is used in special weather.
2. When the gas equipment management subsystem is used, through the gas equipment parameter input device, the gas equipment parameter collector, the equipment working parameter collector and the gas supply pipeline safety monitor, the energy consumption data of the gas equipment can be dynamically monitored in real time, meanwhile, the gas pressure parameter and the gas flow in the gas pipeline are monitored, the pipeline safety monitor arranged on the pipeline can monitor the joint of the natural gas pipeline, timely monitor and alarm the leakage point on the pipeline, the occurrence of the danger of natural gas leakage is prevented, the gas in the exhaust pipeline in a workshop can be monitored through the tail gas emission monitoring memory, the monitored data can be rapidly compared with the emission standard value through the sensor component in the monitoring memory, the compared data is transmitted to the gas energy monitoring station and the monitoring center host, the monitoring center host displays and early warns the monitoring result in real time, and then the tail gas treatment device in the control workshop processes the tail gas, so that the emission is prevented from polluting the environment without reaching standards.
3. The water consumption equipment management subsystem provided by the invention can dynamically monitor the energy consumption data of the water consumption equipment in real time through the water consumption equipment parameter input device, the water consumption equipment parameter collector, the equipment working parameter collector and the water supply pipeline safety monitor, meanwhile, monitor the liquid pressure parameter and the liquid flow in the water pipe, and monitor the joint of the water supply pipeline through the pipeline safety monitor arranged on the water supply pipeline, timely monitor and alarm the leakage point on the pipeline, prevent water from running, overflowing, dripping and leaking to waste water resources, monitor the sewage discharged by the water drain pipeline in a workshop through the waste water discharge information acquisition assembly, rapidly compare the monitored data with the discharge standard value through the sensor assembly in the waste water discharge information acquisition assembly, transmit the compared data to the gas energy monitoring station and the monitoring center host, the monitoring center host displays and pre-warns the monitoring result in real time, then controls the waste water treatment device in the workshop to treat the waste water, prevent the waste water from polluting the environment, and prevent the waste of the waste water from being wasted by the heat energy recovery device in the waste water recovery device from being effectively recycling the waste heat energy in the waste water through the heat recovery device.
Drawings
FIG. 1 is a flow chart of an intelligent energy diversified operation management system according to the present invention;
FIG. 2 is a flow chart of an electric energy monitoring station in the intelligent energy diversified operation management system according to the present invention;
FIG. 3 is a flow chart of a gas energy monitoring station in the intelligent energy diversified operation management system according to the present invention;
Fig. 4 is a flow chart of a water energy monitoring station of the intelligent energy diversified operation management system provided by the invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1:
An intelligent energy diversified operation management system comprises a monitoring center distribution station, an emergency power supply, a monitoring center host, a wireless communication unit, a user terminal data center, an electric energy monitoring station, a gas energy monitoring station and a water energy monitoring station, wherein the monitoring host is in signal connection with the electric energy monitoring station, the gas energy monitoring station and the water energy monitoring station through the wireless communication unit, a power supply port of the monitoring center distribution station is electrically connected with a power interface of the monitoring center host through a wire, the power supply port of the emergency power supply is electrically connected with a dispatcher in the monitoring center host through the wire, an electric equipment management subsystem, an equipment power consumption detail collector and an equipment power consumption data memory are arranged in the electric equipment monitoring station, the electric equipment management subsystem comprises an electric equipment parameter input device, an equipment working parameter collector, a multi-power supply unit and a multi-power supply converter, the electric equipment parameter input device records the type and the rated design power of equipment of main equipment, the equipment recorded in a factory area is subjected to classified input by the electric load property and the power consumption area, standard, clear and complete energy consumption equipment logs are generated in the electric energy monitoring station, the generated in the power monitoring center distribution station is provided with the functions of maintenance, the monitoring and the monitoring station, the power consumption data collector is converted into the data of the power consumption area through the wireless communication unit, the wireless communication system is transferred to the monitoring center data collector and the power consumption data of the monitoring center through the wireless communication unit when the power consumption data collector is transferred to the monitoring center data collector to the monitoring center station through the wireless communication unit, the equipment electricity consumption detail collector collects electricity consumption changes of useful energy equipment in standby, idle load, full load and overload, collected data information is summarized and then transmitted to the electric energy monitoring station through a system main line, a monitoring center host transmits generated control signals to an automatic control device arranged on the useful energy equipment to protect the useful energy equipment through a wireless communication unit, the data collected by the electricity consumption detail equipment collector is stored by an equipment electricity consumption data storage, and is displayed and reported together by a graph displaying the energy consumption of the useful energy equipment by any administrator in a manner of energy consumption structure, good trend and index comparison, a gas equipment management subsystem and a tail gas emission monitoring storage are arranged in the gas energy monitoring station, and a water equipment management subsystem, a wastewater emission information collection assembly and a wastewater energy recovery device are arranged in the water energy monitoring station.
The intelligent instruments for different energy consumption devices must support the collection and storage management of multi-stage energy consumption data in the field of network interfaces such as CDMA3G/4G and the like, when the network is interrupted or the main memory breaks down, the data collection device continuously collects and stores the energy consumption data through the sub-storage modules in the instruments, the collected data is stored locally, and after the network or the main memory resumes communication, the sub-storage modules continuously upload the energy consumption data to the main memory.
When the intelligent energy consumption monitoring system is used, the types of all energy consumption sub-departments, classification and sub-metering can be distinguished and counted through the central power distribution station, the emergency power supply, the monitoring center host, the wireless communication unit user terminal data center, the electric equipment management subsystem, the equipment electricity consumption detail collector and the electricity consumption data collection memory, the data of the intelligent instrument are transmitted to the monitoring center host through the wireless network, the equipment energy consumption information can be remotely controlled and collected through the user terminal data center, the dynamic monitoring and the energy consumption statistics of the energy consumption equipment can be realized, the collected data can be automatically transmitted and stored, the data support for energy conservation, consumption reduction and energy conservation decision improvement can be provided for a factory, the electric energy generated by wind energy and solar power generation equipment arranged in the factory can be regulated through the multi-power supply unit and the multi-power supply converter which are arranged, the electric energy consumed by the energy and the solar energy generated by the factory can be fully distributed and used for supplying power to equipment in the factory, the electric energy consumed by the energy of the energy consumption equipment can be effectively reduced, the expenditure of the energy consumption of the power supply equipment can be reduced, the power supply mode of the equipment can be automatically switched, and the normal power supply mode of the equipment can be ensured when the power supply equipment is used in special weather.
Example 2: the difference is based on example 1;
The gas equipment management subsystem is internally provided with a gas utilization parameter importer, a gas utilization equipment parameter collector, an equipment working parameter collector and a gas supply pipeline safety monitor, the gas utilization equipment parameter importer records the equipment model and the equipment rated design power of main energy utilization equipment, the recorded energy utilization equipment in a factory is used for carrying out classified recording on the property and the gas utilization area of the gas utilization equipment, a normal, clear and complete energy utilization equipment log is generated in a gas energy monitoring station system, the generated log has the adjustable, maintenance, monitoring and readability, the equipment working parameter collector collects the dynamic energy consumption data information when the energy utilization of the useful energy equipment in the factory and transmits the energy consumption data to the gas energy monitoring station, the gas energy monitoring station receives the gas pressure, the gas flow rate and the gas concentration in the pipeline of the gas supply pipeline safety monitor and then transmits data to the monitoring center host, the monitoring center host generates a signal to form a line diagram, a pie diagram or a bar diagram, one of the line diagram, the pie diagram or the bar diagram is supplied to a user terminal data center to be checked at any time through the wireless communication unit, a monitoring sensor group of the tail gas emission monitoring memory is arranged on a workshop tail gas emission system pipeline, the signal monitored by the monitoring sensor group is transmitted to the monitoring center host through the gas energy monitoring station, the monitoring center host compares the data with a gas tail gas emission standard value preset in the system, and after the comparison, a control command is automatically generated to control the tail gas treatment system in a factory to treat tail gas, and the tail gas treatment device uses different powers to treat the tail gas according to the command of the monitoring center host
When the gas equipment management subsystem is used, through the gas equipment parameter input device, the gas equipment parameter collector, the equipment working parameter collector and the gas supply pipeline safety monitor, the energy consumption data of the gas equipment can be dynamically monitored in real time, meanwhile, the gas pressure parameter and the gas flow in the gas pipeline are monitored, the pipeline safety monitor arranged on the pipeline can monitor the joint of the natural gas pipeline, timely monitor and alarm the leakage point on the pipeline, the occurrence of the danger of natural gas leakage is prevented, the gas in the exhaust pipeline in a workshop can be monitored through the tail gas emission monitoring memory, the monitored data can be rapidly compared with the emission standard value through the sensor component in the monitoring memory, the compared data is transmitted to the gas energy monitoring station and the monitoring center host, the monitoring center host displays and early warns the monitoring result in real time, and then the tail gas treatment device in the control workshop processes the tail gas, so that the emission is prevented from polluting the environment without reaching standards.
Example 3: the difference is based on example 1;
The water consumption equipment management subsystem comprises a water consumption equipment parameter collector, an equipment working parameter collector and a water supply management safety detector, wherein the water consumption equipment parameter collector records the equipment model and the rated design power of equipment of main energy consumption equipment, the recorded energy consumption equipment in a factory is used for carrying out classified recording on the property and the water consumption area of the water consumption equipment, a normal, clear and complete energy consumption equipment log is generated in a water energy monitoring station system, the generated log has the regulation, maintenance, monitoring and readability, the equipment working parameter collector collects the dynamic energy consumption data information when the energy consumption of the energy consumption equipment in the factory is carried out, the energy consumption data is transmitted to the water energy monitoring station, the water energy monitoring station receives the liquid pressure, the liquid flow rate and the liquid concentration in the pipeline of the air supply pipeline safety monitor and then transmits the data to a monitoring center host, the monitoring center host computer generates a line diagram, a pie chart or a bar chart of signals to a user terminal data center to be checked at any time through a wireless communication unit, the water consumption equipment parameter input device records the equipment model and the rated design power of equipment of main energy consumption equipment, the recorded energy consumption equipment in a factory is subjected to classified input by water load property and water consumption area, and a normal, clear and complete energy consumption equipment log is generated in the system, the generated log has the adjustable, maintenance, monitoring and readability, the equipment working parameter collector collects dynamic energy consumption data information of the energy consumption of the useful energy equipment in the factory, and transmits the energy consumption data to a water energy monitoring station in three sections of intervals of valley time, normal and peak time, and the water energy monitoring station receives the liquid pressure, the liquid flow rate in a pipeline of the water supply pipeline safety monitor, and after the liquid temperature and the wastewater discharge data acquired by the wastewater discharge information acquisition component are transmitted to the monitoring center host, the monitoring center host generates a signal to one of a line diagram, a pie diagram or a bar diagram, and the signal is supplied to the user terminal data center to be checked at any time through the wireless communication unit.
When the temperature in the wastewater collected by the wastewater discharge information collection assembly reaches the recoverable temperature, the wastewater energy recovery device exchanges heat and recovers heat energy contained in the wastewater according to information fed back by the monitoring center host, and the recovered heat energy is stored in a carrier form and is supplied to other heating equipment in a factory.
The water consumption equipment management subsystem provided by the invention can dynamically monitor the energy consumption data of the water consumption equipment in real time through the water consumption equipment parameter input device, the water consumption equipment parameter collector, the equipment working parameter collector and the water supply pipeline safety monitor, meanwhile, monitor the liquid pressure parameter and the liquid flow in the water pipe, and monitor the joint of the water supply pipeline through the pipeline safety monitor arranged on the water supply pipeline, timely monitor and alarm the leakage point on the pipeline, prevent water from running, overflowing, dripping and leaking to waste water resources, monitor the sewage discharged by the water drain pipeline in a workshop through the waste water discharge information acquisition assembly, rapidly compare the monitored data with the discharge standard value through the sensor assembly in the waste water discharge information acquisition assembly, transmit the compared data to the gas energy monitoring station and the monitoring center host, the monitoring center host displays and pre-warns the monitoring result in real time, then controls the waste water treatment device in the workshop to treat the waste water, prevent the waste water from polluting the environment, and prevent the waste of the waste water from being wasted by the heat energy recovery device in the waste water recovery device from being effectively recycling the waste heat energy in the waste water through the heat recovery device.
It should be noted that the term "comprises," "comprising," or any other variation thereof is intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.