Solutions

Solutions

Solutions

Scheme display

Planning

Based on regional resource endowments and industrial characteristics, systematically analyze the corporate energy structure, formulate a multi-dimensional decarbonization path covering clean energy sources such as photovoltaics and energy storage, and provide a long-term carbon neutrality strategic framework and phased target decomposition for parks and enterprises.

Design

Integrating digital twin and simulation technologies, this approach optimizes rooftop/ground-mounted photovoltaic arrays, energy storage configurations, and smart microgrid architecture to achieve the most technically and economically feasible solution. It balances energy supply stability with the benefits of low-carbon transformation.

Investment

Innovate a "technology + finance" service model, design a risk-controllable investment and financing portfolio, and link tools such as green credit and carbon benefit mortgages to activate the internal driving force of corporate clean energy investment.

Construction

Establish a standardized and customized collaborative engineering system, integrating efficient construction technologies and a digital management platform to ensure high-quality photovoltaic project implementation and achieve resource-intensive development and ecological synergy.

Operations and Maintenance

Build a smart energy management system, leveraging big data and AI algorithms to achieve dynamic optimization of photovoltaic power plants, providing full-process services such as energy efficiency diagnosis and fault warning, and extending the life cycle value of assets.

Carbon asset management and trading

Construct a carbon footprint tracking system, align with international and domestic carbon market rules, carry out the asset operation of emission reduction, and achieve the dual increase of environmental and economic benefits through carbon financial derivatives.

One-stop solution for large-scale wind and solar power bases

One-stop solution for large-scale wind and solar power bases

Based on the full industrial chain of wind, solar, and thermal energy storage, integrating full or surplus grid-connected photovoltaic/wind power generation models and coordinating power supply with the power grid. Modular design and equipment are adopted to improve reliability and operation and maintenance efficiency, and intelligent monitoring of all scenarios is achieved through a big data cloud platform. Customized services are provided for various scenarios, covering the entire life cycle of planning, construction, and operation, helping to create benchmark projects with high safety, high economic efficiency, and industry demonstration value.

Iron Tower Communication Photovoltaic Solution

Iron Tower Communication Photovoltaic Solution

The company partnered with China Tower Corporation to build solar photovoltaic power plants on the roofs of communication base station equipment houses. The generated electricity is integrated into the base station power distribution system, prioritized for use by the communication base station, and uses digital maintenance methods, significantly reducing manual maintenance costs.

Clean energy solutions for the transportation industry

Clean energy solutions for the transportation industry

As one of the main "carbon sources", transportation emissions account for about 10.4% of China's total carbon emissions. The low-carbon transformation and development of the transportation industry is of great significance. The combination of photovoltaic power generation and the transportation sector can not only meet the national requirements for energy conservation and emission reduction, but also strongly support the reduction of transportation operating costs, the improvement of economic efficiency, and the revitalization of idle assets in the transportation sector.

Clean energy solutions for oil and gas fields

Clean energy solutions for oil and gas fields

Oil and gas field development is a high-energy-consuming industry. Developing and utilizing renewable energy and achieving a green and low-carbon development strategy is both in line with the needs of the new development stage of the country, undertaking the social responsibility of energy conservation and emission reduction, and an objective requirement for the company's own development. Linyi Power assists petrochemical enterprises in saving coal and electricity to achieve carbon reduction, reduce costs and increase efficiency through expanding the application of clean energy sources such as geothermal energy, waste heat, solar energy, and wind energy.

Commercial and Industrial Distributed Photovoltaic Power Generation Solution

Commercial and Industrial Distributed Photovoltaic Power Generation Solution

Primarily utilizing industrial and commercial rooftops, we employ diverse distributed photovoltaic power station construction schemes. Photovoltaic components are installed to achieve "self-generation and self-consumption, with excess electricity fed into the grid" or "full feed-in to the grid." Main application scenarios include factory rooftops, logistics park/industrial park rooftops, and commercial building rooftops (such as shopping malls, supermarkets, parking lots, etc.), offering advantages such as alleviating local power shortages, generating additional income from excess electricity, and achieving clean, efficient energy saving and emission reduction.

School Integrated Energy Solution

School Integrated Energy Solution

The school's integrated energy solution centers around a photovoltaic system, integrating intelligent temperature control, air-source heat pumps, and direct-drinking water purification equipment to build a green, low-carbon energy system. A digital platform monitors energy production, storage, and consumption in real-time, optimizing energy efficiency management, reducing maintenance costs, promoting the transformation of smart energy use on campus, and achieving sustainable development goals of high efficiency, energy saving, and economic environmental protection.

Hospital Integrated Energy Solutions

Hospital Integrated Energy Solutions

Hospitals are different from general public buildings. Their energy supply must not only be uninterrupted but also of guaranteed quality. Air conditioning and heating account for over 60% of total energy consumption, presenting significant potential for energy savings. A comprehensive energy design and implementation strategy can effectively reduce hospital energy consumption.

Integrated energy solutions for airports and high-speed rail stations

Integrated energy solutions for airports and high-speed rail stations

Through the national standard energy consumption real-time acquisition system, accurate monitoring and intelligent analysis of energy data are realized. The system combines traffic schedules and meteorological data to dynamically adjust the operation of lighting, fresh air, and heating and cooling source equipment; machine learning algorithms are used to generate predictive control strategies, breaking through the spatio-temporal delay effect of energy transmission and distribution; relying on AI to build a dynamic energy consumption model, real-time correction of parameters and generation of fault warning and contingency plans, and simultaneous development of carbon emission trend prediction, providing multi-dimensional decision support for green and low-carbon operation.

Improve the absorption capacity of new energy

Improve the absorption capacity of new energy

With the increasing proportion of new energy sources such as wind power and photovoltaics in the power system, their volatility, intermittency, and randomness pose challenges to the stable operation of the power grid. Integrated source-grid-load-storage projects can effectively solve this problem and improve the consumption capacity of new energy sources.

Reduce power grid investment and electricity costs

Reduce power grid investment and electricity costs

Optimize the spatiotemporal distribution of peak load on the power grid and reduce the capacity configuration of grid substations; at the same time, through the energy storage system, electricity can be stored during periods of low electricity load and released during peak load, thereby reducing user electricity costs.

Enhance power grid regulation capabilities

Enhance power grid regulation capabilities

Achieve centralized resource management, enhance the power grid's ability to ensure supply during special circumstances, and realize self-balancing, self-regulation, self-management, and millisecond-level self-healing of the power grid.

Achieve low-carbon, high-efficiency synergy

Achieve low-carbon, high-efficiency synergy

Leverage the advantages of low-carbon energy and improve its utilization efficiency.

Industry Development Insight

Industry Development Insight

Relying on over 20 years of industry experience, we keenly grasp market trends, technological directions, competitive landscapes, and customer needs.

Project development and implementation capabilities

Project development and implementation capabilities

Possessing a professional project team, we strive for precision and efficiency, planning with high standards, constructing with high efficiency, and operating with high quality to ensure successful project implementation.