With the increasing pressure on environmental protection, reducing carbon emission has become the consensus of each country on environmental issues [, , ] the process of global low-carbon transition, in order to alleviate the contradiction between energy supply and demand and promote the low-carbon development of energy utilization, multi
Energy storage acts as a bridge between the supply and demand sides and is crucial for increasing the renewable energy utilization in industrial parks, thereby contributing to the realization of low-carbon, zero-energy objectives .However, existing energy-storage technologies have inherent advantages and disadvantages.
Numerous scholars have studied the integration of demand response (DR) and carbon trading mechanisms into IES. Load-side demand response can reduce CO 2 emissions and increase the use of renewable energy (He et al., 2020a, Li et al., 2021b).Reference (He et al., 2020b) explored the schedulable value of user-side loads, establishing a demand response
To achieve low-carbon economic operation of hydrogen-doped integrated energy systems while mitigating the stochastic impact of new energy outputs on the system, the coordinated operation mode of hydrogen-doped gas turbines and electrolyzers is focused on, as well as a hybrid energy storage scheme involving both hydrogen and heat storage and an
DOI: 10.1016/j.jclepro.2024.141031 Corpus ID: 268182455; An optimization strategy for intra-park integration trading considering energy storage and carbon emission constraints
Zhang et al. (2022) discussed the energy behaviors of park under three carbon policies based on a LCA of BIPPG technology, which indirectly proved that participation in the carbon trading market can effectively enhance the economic benefits of BIPPG.
Huafon ESS Zero Carbon Park Solution connects energy storage systems, charging facilities, and other terminal elements with big data, artificial intelligence, cloud computing, and other technologies. The analysis of the dynamic connection between the price of carbon and the price of energy is the main goal of carbon energy trading
Subsequently, the constraint solution with carbon trading costs showed that the energy storage equipment in the integrated energy system should be shifted in the direction of high efficiency,
According to the principles of free energy market trading, the industrial electricity price within the industrial park is set at 0.78 yuan per kWh for all time periods, The region has initiated a pilot program for carbon emission rights, and the carbon trading market operates under the traditional carbon trading mechanism.
transparency of the internal energy carbon emissions data is required, but also the information interaction with the green power market and the carbon emissions trading market outside the park is required to achieve the dynamic balance of zero carbon emissions of the entire industrial park. This paper proposes an energy trading system for a *
After considering the ICGCT mechanism, the total charging and discharging power of energy storage increased by 26.20 %, proving that the integration of carbon green certificate trading mechanism can effectively mobilize the enthusiasm of energy storage output, while ensuring the operation mechanism and profit mechanism of peak discharge and valley
According to the Paris Agreement, all countries in the world pledge to limit their temperature rise to 1.5 °C compared to pre-industrial times .Since about 75% of global carbon emission is contributed by the energy system, carbon emission reduction in the energy system is considered as a key way to limit the greenhouse effect.
The Bureau of Energy Efficiency has issued the draft Detailed Procedure for Compliance Mechanism under the Carbon Credit Trading Program pliance mechanism. Under the new procedure, the Ministry of
The research on demand response and energy management of parks with integrated energy systems abounds. In Ref. , the energy time-shift characteristics of the energy storage system are fully considered and adjusted as a demand-side flexibility resource Ref. , the flexible load and the convertible load are fully considered, wind and light uncertainty budget
The energy storage capacity configuration with the goal of environmental protection is mainly aimed at promoting the efficient utilization of renewable energy , reducing coal consumption of conventional power generation units , reducing grid losses , and reducing carbon emissions. A model for energy storage capacity configuration is
Aiming at carbon emissions disparities and supply-demand imbalances, this paper proposes a carbon trading ladder reward and punishment mechanism and an energy trading and
Exploring the large-scale application of hydrogen energy in the industrial sector holds significant importance for constructing a clean, low-carbon, secure, and efficient energy system, as well as achieving the goals of carbon peak and carbon neutrality [1,2,3,4].Currently, the primary methods for hydrogen production include fossil fuel-based hydrogen production,
This paper focuses on the low-carbon dispatching of an integrated energy industrial park, proposing a trustworthy data attestation and traceability framework to ensure the traceability
agement, carbon capture, industrial park, carbon and multi-energy trading, constraints relaxation, ESG. I. INTRODUCTION Nowadays, a large number of industrial clusters (ICs) have settled in the industrial park, which brings huge economic benefits, but forms a concentrated area with high energy consumption and emissions . To reduce emissions
The park adopts a rooftop-distributed solar PV system and an energy storage system to independently neutralize greenhouse gas emissions. Under the support and guidance of CBEEX, the remaining emissions were
In summary, the introduction of carbon trading mechanisms into the energy scheduling model of clustered industrial parks is an imperative step in propelling the industry''s transition from high-carbon emissions to a low
The PIES studied in this article utilizes photovoltaics (PV) for energy generation, heat pumps (HP), combined heat and power (CHP), and gas boilers (GB) as energy conversion devices, and energy storage (ES) units and
To enhance the low-carbon utilization of IES energy, this paper introduces an economic optimization model that incorporates stepwise carbon trading and both source and load-side resources.
Key words: Low carbon industrial park, CO2 emissions, STIRPAT model Highlights: China''s national low-carbon industrial parks pilot program is analyzed. The STIRPAT model is used to reveal how driving factors affect CO 2 emissions. A regional analysis confirms distinct low carbon development patterns are needed. 1. Introduction
Energy development in industrial parks promotes both industrial and inter-park economies. However, as the number of industrial parks increases and the economic level of the parks rises, energy consumption is also increasing rapidly. The rapid expansion of inter-park trading markets is accompanied by a surge in carbon emissions, making industrial parks increasingly significant
Climate change is seriously threatening ecological environments essential for human survival. Achieving the carbon neutrality goals of industrial parks (IPs), the gathering places of industrial activity, plays a crucial role in climate change mitigation and in promoting sustainable industrial development. In this study, we use an AI-facilitated literature review and
Due to the large proportion of China''s energy consumption used by industry, in response to the national strategic goal of “carbon peak and carbon neutrality” put forward by the Chinese government, it is urgent to improve energy efficiency in the industrial field. This paper focuses on the optimization of an integrated energy system with supply–demand coordination
Goldwind provides zero-carbon solutions for new power systems. Based on Goldwind DEEP™ smart energy digital platform and a smart energy and carbon-integrated management system, Goldwind helps industrial companies and organizations enhance production efficiency, reduce costs, and improve profitability while reducing carbon dioxide emissions.
The key innovations of this paper include: (1) Proposing a networked waste heat recovery system for industrial parks that integrates renewable energy, traditional power grids, and multi-grade waste heat, achieving energy conjugation for both buildings and industries; (2) Establishing a matching mechanism between the waste heat temperature zone and the user''s
Then, considering the load characteristics and bidirectional energy interaction of different nodes, a user-side decentralized energy storage configuration model is developed for a multi
A study on the energy storage scenarios design and the business model analysis for a zero-carbon big data industrial park from the perspective of source-grid-load-storage collaboration which is not beneficial to the implementation and implementation of the program. Although China has put forward the construction standard of zero-carbon data
Abstract: The Park Integrated Energy System (PIES) efficiently integrates multiple energy sources to meet the load demand, making it a practical approach for achieving low-carbon energy
Establishing an industrial park-integrated energy system (IN-IES) is an effective way to reduce carbon emission, reduce energy supply cost and improve system flexibility.However, the modeling of hydrogen storage in traditional IN-IES is relatively rough. In order to solve this problem, an IN-IES with hydrogen energy industry chain (HEIC) is proposed
To address the increasing hydrogen demand and carbon emissions of industrial parks, this paper proposes an integrated energy system dispatch strategy considering multi-hydrogen supply and comprehensive demand response. This model adopts power-to-gas technology to produce green hydrogen, replacing a portion of gray hydrogen and incorporates
In response to this environmental challenge, this paper proposes an integrated trading approach within industrial parks that considers carbon constraints. By implementing a spot trading
In this paper, a bi-level optimal low-carbon economic dispatch model for an industrial park is proposed considering multi-energy price incentives; at the upper level, the model takes the optimal net income of the IESA as the target, and the carbon emission constraints of the real-time unit integrated energy supply are considered, so that the IESA can reasonably
To more effectively constrain energy consumption and carbon emissions in industrial parks, a residual energy trading model has been adopted to reduce their energy
Regarding the low-carbon economic schedules of the multi-energy system, some achievements have been made in operation optimization considering carbon emission factors (Pilpola and Lund, 2020) nsidering the uncertainties, literature (Alabi et al., 2021) presents a stochastic operation method of a zero-carbon multi-energy system.Literature (Peng et al.,
The liquid carbon dioxide energy storage system (LCES), as a highly flexible, long-lasting, and environmentally friendly energy storage technology, shows great potential for application in integrated energy systems. However, research on the combined cooling, heating, and power supply using LCES in integrated energy systems is still limited. In this paper, an
There remains a dearth of research on integrating carbon trading mechanisms into the comprehensive energy management systems of clustered industrial users. This limitation hinders the seamless coordination of production processes among various factories.
Block diagram of integrated energy system in the paper industry park. The energy production unit includes the electrical energy unit, which refers to the main power grid (GRID), the wind turbines (WT), the photovoltaic panels (PV), the coal yard (COAL), and the natural gas station (GAS).
Furthermore, energy unit models are devised for the IES and then a low-carbon and economically optimized scheduling model is outlined for the IES within the industrial park, aiming to minimize the total operational cost, including the cost of carbon trading.
The carbon trading mechanism is a market-oriented tool that encourages enterprises to reduce greenhouse gas emissions by buying and selling carbon emission quotas. It can be combined with Industrial Energy Systems (IES) to reduce carbon emissions in energy production and consumption processes and have an impact on operational decisions.
In this paper, through an analysis of the paper production process and the parallel production constraints within supply chain coupling, an economic scheduling model based on stepped carbon trading is established to optimize the operation of the IES within a paper-making park.
(This article belongs to the Special Issue Multi-Energy Systems Operation, Economics and Policy to Facilitate Low-Carbon Energy Transition) Industrial parks, characterized by the clustering of multiple factories and interconnected energy sources, require optimized operational strategies for their Integrated Energy Systems (IES).
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