A universal ECCR planning optimization model is constructed to maximize annual economic benefits or carbon emission reduction. Using an industrial park in southern China as a case study, genetic algorithms are
Solar energy, which is regular in supply and has a minimal impact on the environment, ought to be used more efficiently by means of solar collectors. Sinhmar and Singh (2021) presented the latest indirect (solar collectors) and direct (photovoltaic) methods of capturing solar energy. They discuss types of solar dryers and the issues of heat energy
Energy saving and emission reduction efficiency are important and emission reduction efficiency of 11 energy-intensive industrial sectors in South Africa. Some scholars have used DEA models to measure and analyze the energy-saving and emission-reduction potential of China''s provinces from different perspectives, and found that there are obvious regional
Trina Solar actively promotes sustainable manufacturing practices within the solar industry. The company ensures industrial carbon emission reduction by implementing these eco-friendly strategies and optimizing resource utilization.
This was done through industrial and energy innovations, strict norms and regulations, transition to renewable energy, energy conservation programs, participation in international agreements under the Kyoto Protocol, and increased awareness of climate change issues. This resulted in some reduction in the rate of increase in GHG emissions. However,
This paper proposes a framework to select and schedule equipment resources for energy-saving in a networked manufacturing environment for different stages of manufacturing. First, to increase energy efficiency in the customer orders demand stage, a fuzzy multi-objective decision-making model is developed. This model considers economy
A universal ECCR planning optimization model is constructed to maximize annual economic benefits or carbon emission reduction. Using an industrial park in southern China as a case study, genetic algorithms are utilized to solve the model and validate its feasibility.
The sustainable development and intelligent transformation of the manufacturing industry have become inevitable trends. As a typical example of the intelligent transformation, the networked manufacturing mode has been widely applied through sharing and utilizing manufacturing resources all over the world. Existing research on energy-saving use of
Trina Solar actively promotes sustainable manufacturing practices within the solar industry. The company ensures industrial carbon emission reduction by implementing these eco-friendly strategies and
Abstract. Energy audits can identify energy consumptions, energy costs of the facility and evolve to develop measures to maximize efficiency, optimize supply energy, and eliminate waste. This paper
To reach emission reduction goals, these policies may indirectly impact the industrial and energy structures. Although several mechanisms are not mutually exclusive, it is still unknown how ETS operates. We use China''s CO 2 ETS pilot policy, which has the following benefits, to analyse the impact of the ETS. Encroachment and excessive particulate emissions
A "smart energy" approach is now an inevitable link to achieving energy conservation and emission reduction policies and ensuring sustainable development. Compared with traditional single-energy systems, smart energy systems emphasize coupling among heterogeneous energy systems. This high degree of coupling enables smart energy systems to
Heat and electricity from solar sources (medium to high-temperature solar thermal and photovoltaics) are two potential solutions for reducing CO 2 emission in the
In recent years, the production of renewable energy has increased continuously to reduce fossil fuel consumption and CO 2 emissions and to increase energy efficiency. The challenge of industries is to integrate
In order to generate the optimal emission reduction service strategy for the industrial park, this paper takes the solar CCHP system as the research object and focus on the problems of the traditional park energy supply system with large carbon emissions and...
Boosting manufacturing efficiency through energy optimization and renewable energy utilization: Strategic inclusion of energy-efficient equipment, renewable energy, and the electrification of manufacturing fleets—including electric
A "smart energy" approach is now an inevitable link to achieving energy conservation and emission reduction policies and ensuring sustainable development. Compared with traditional
Efficiency stands out as one of the most important options for achieving industrial decarbonization. In addition to carbon emissions reductions, improving energy, material and
Overall, research on energy-saving targets and carbon neutrality remains insufficient. Firstly, existing studies primarily focus on the impact of urban energy-saving policies on carbon emission reduction, water conservation, and other effects, while relatively few studies explore carbon neutrality from the perspective of energy-saving targets
Boosting manufacturing efficiency through energy optimization and renewable energy utilization: Strategic inclusion of energy-efficient equipment, renewable energy, and the electrification of manufacturing fleets—including electric forklifts—are an important aspect of
The novelty and academic contributions of this study lies in (1) providing one set of decision-making tools to diagnose interactions between environmental sustainability and carbon emissions when applying different energy-saving and emission reduction measures in industrial production, (2) discovering synergy between the SRC and ORC but trade-off among
In recent years, the production of renewable energy has increased continuously to reduce fossil fuel consumption and CO 2 emissions and to increase energy efficiency. The challenge of industries is to integrate renewable energy systems into the existing power system of manufacturing industries.
The energy-saving and emission reduction (ESER) strategy is a crucial measure for promoting the sustainability of manufacturing industry in green transition. Analyzing current practices and limitations of the ESER in the manufacturing industry, this paper proposes a new concept entitled lean energy-saving and emission-reduction
Efficiency stands out as one of the most important options for achieving industrial decarbonization. In addition to carbon emissions reductions, improving energy, material and resource efficiency can bring many desirable benefits, such as cost savings, increased energy and resource security, and higher productivity.
Achieving significant advancements in energy saving, emission reduction, and profit enhancement in the iron and steel manufacturing process (ISMP) necessitates a comprehensive and in-depth analysis of the underlying operational principles and mechanisms. Methods such as material flow and energy flow analysis, input–output analysis, etc., were
This paper proposes a framework to select and schedule equipment resources for energy-saving in a networked manufacturing environment for different stages of manufacturing. First, to increase energy
In order to generate the optimal emission reduction service strategy for the industrial park, this paper takes the solar CCHP system as the research object and focus on
Heat and electricity from solar sources (medium to high-temperature solar thermal and photovoltaics) are two potential solutions for reducing CO 2 emission in the industrial heating sector. This study investigates the potential of solar energy in the form of heat and/or electricity to make a significant contribution to reduce CO 2 emissions
The energy-saving and emission reduction (ESER) strategy is a crucial measure for promoting the sustainability of manufacturing industry in green transition. Analyzing current
Gate-to-gate production stages have been considered for the investigation. The strategies for the energy and GHG emission-saving potential have been also analyzed. The result showed that the total energy consumption in terms of natural gas, oil, and electricity found are 15,105 m3, 49.93 kg, and 36,265 kWh respectively per day. The total CO2 emission found is
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