Lösungen
Lösungen

Microgrid System

 

    Microgrid refers to a small power generation and distribution system composed of distributed power sources (solar, wind power, diesel), energy storage devices, energy conversion devices, loads, monitoring and protection devices, etc.

Über uns
Jntech Renewable Energy Co., Ltd.
JNTECH RENEWABLE ENERGY CO., LTD. wurde 2006 gegründet und ist ein internationales High-Tech-Unternehmen, das Forschung und Entwicklung, Herstellung, Vertrieb und Service intelligenter Leistungselektronikprodukte integriert. Verlassen Sie sich auf die Humanressourcen und den technischen Vorsprung der berühmten chinesischen Technologieuniversität. JNTECH verbessert Produkte und Technologie durch Unternehmens-, Universitäts- und Forschungskooperationen, besitzt mehr als 60 Solarpatente und beteiligt sich an der Festlegung chinesischer Solarstandards. Wir haben netzunabhängige Solar-Wechselrichter und netzunabhängige Solar-Stromversorgungssysteme, Solarpumpen-Wechselrichter und Solarpumpensysteme, Solarbewässerungssysteme, Solarbelüftungssysteme, Solarenergiespeicher-Wechselrichter und zugehörige Systeme entwickelt, die in mehr als 60 Ländern weit verbreitet sind. Wir wurden im Ausschreibungskatalog und als bevorzugte Marke internationaler Projekte von IBRD, UN, FAO, NGOs usw. aufgeführt. Im Laufe der Jahre genießt die Marke „JNTECH“ ein hohes Ansehen in der Branche. JNTECH ist bestrebt, der herausragende internationale Anbieter von Solarlösungen für intelligente Solarenergieprodukte, Solarbewässerungs- und Wasseraufbereitungssysteme sowie solare ökologische Aufbereitungssysteme zu werden. Gemäß der Idee „Grüne Energiezukunft schaffen und nachhaltige soziale Entwicklung sicherstellen“ vertritt JNTECH die Sicht der wissenschaftlichen Entwicklung Als Richtlinie dient die Schaffung grüner, umweltfreundlicher neuer Energie weiterhin der Gesellschaft, den Menschen und dem Staat. Jntech-Gruppe   
mehr über

 

 

17+

Jahre Sonderanfertigung
Nachrichten&Blog
Blog
  • 16

    Sep-2024

    This article will teach you about renewable energy
         In recent years, with the growing awareness of climate change, the international community has actively sought to achieve a win-win situation between the economy and the environment to reduce environmental pollution and reduce carbon emissions. In this context, renewable energy has become a sustainable energy solution, including photovoltaics, wind power, hydropower, geothermal energy and biomass energy. Compared with non-renewable and limited resources such as fossil fuels and coal, nature continuously produces renewable energy, and its replenishment rate is much higher than the consumption rate, which is more environmentally friendly. Therefore, renewable energy has become a focus of today's society and is regarded by various countries as an important carbon reduction development project.       One of the most well-known renewable energy sources is photovoltaics. Photovoltaics uses photovoltaic panels to capture and then convert it into electrical energy. In recent years, the price of photovoltaic panels has continued to decline and the technical maturity has continued to improve, making photovoltaic power generation systems more and more accessible and can be used to power homes, businesses and even entire communities.       Another common renewable energy source is wind power. By setting up wind turbines, wind power causes the blades to rotate to generate kinetic energy, which is then converted into electricity. Wind energy is widely favored in the global energy industry. With the advancement of technology and the realization of economies of scale, the cost of wind power has gradually decreased. Many countries and regions have been able to produce wind power at competitive prices, making wind power generation a cost-effective energy option. In addition, wind resources are widely distributed around the world and can be developed in many regions, which can help non-oil mining countries reduce their dependence on imported energy and increase the stability of energy supply.        In addition, renewable energy also includes biomass energy and geothermal energy. Biomass energy is obtained from plant and animal debris, such as burning wood to generate heat. Geothermal energy converts geothermal heat into mechanical energy, and then converts mechanical energy into electrical energy.        In general, renewable energy has an important impact on achieving energy transformation and mitigating climate change, while also creating a sustainable future. With the continuous advancement of technology, policy support and market promotion, renewable energy will continue to develop rapidly and become an important force in dominating the future global energy system.
    Details anzeigen
  • 13

    Sep-2024

    Comprehensive analysis of energy storage power station system
    In the field of energy storage, energy storage power stations play an important role. The application of energy storage power station technology runs through all aspects of power generation, transmission, distribution, and power consumption in the power system. It realizes peak shaving and valley filling of the power system, smoothing and tracking plan processing of renewable energy power generation fluctuations, efficient system frequency modulation, and increases power supply reliability. 1. What is an energy storage power station Energy storage power stations are power stations set up to regulate peak and valley power consumption problems. Energy storage power stations are composed of energy storage units and auxiliary facilities, access devices, and measurement and control devices. The establishment of energy storage power stations is to store the electricity that we are going to waste during low-peak power consumption periods and release it back to the power grid during peak power consumption to achieve the purpose of peak shaving and valley filling. 2. Composition of energy storage power station system Energy storage power station system can be divided into six main parts, namely renewable energy, energy transmission system, conversion system, storage system, management system and network access system.
    Details anzeigen
  • 09

    Sep-2024

    Core technologies of microgrids
    The key technologies of smart microgrids mainly include the following: (I) Renewable energy generation technology At present, smart microgrids are mainly based on a variety of renewable energy sources, and the power input is mainly photovoltaic, wind power, hydrogen energy, natural gas, biogas and other mature power generation technologies. (I) Key technologies of energy storage Energy storage is an indispensable part of microgrids. It can play a role in peak shaving and valley filling in microgrids, greatly improving the utilization efficiency of intermittent energy. With the continuous development of science and technology, the current energy storage mainly includes battery energy storage, flywheel energy storage, superconducting magnetic energy storage, and supercapacitor energy storage. The more mature energy storage technology is lead-acid battery, but it has the problems of short life and serious lead pollution. In the future, the marketization of high energy storage, low cost, and high-quality performance graphene batteries will bring spring to the energy storage industry. The current development cost of energy storage technology is relatively high. Countries around the world are working on this technology, but they all have a common goal, which is to achieve the goal of "low cost + high energy storage". (II) Smart microgrid energy optimization dispatching technology Different from the traditional power grid dispatching system, the smart microgrid dispatching system belongs to the horizontal multi-energy complementary optimization dispatching technology, which can fully explore and utilize the direct complementary substitutability of different energy sources, and can not only realize the output of heat, electricity and cold, but also realize the energy exchange of light/electricity, heat/cold, wind/electricity, direct/alternating current. The stratification of various energy sources in the source-storage-load links realizes orderly cascade optimization dispatching to achieve the best energy utilization efficiency. (III) Smart microgrid protection and control technology There are multiple power sources and multiple loads in the smart microgrid. The changes in loads and fluctuations in power sources need to be regulated and controlled by the energy storage system or the external power grid. The regulation, switching and control of these power sources are completed by the microgrid control center. In addition to monitoring the power parameters, switch status, power quality and energy parameters of each new energy generation system, energy storage system and load, the microgrid control center also needs to save energy and improve power quality.
    Details anzeigen

Eine Nachricht hinterlassen

Eine Nachricht hinterlassen
Wenn Sie an unseren Produkten interessiert sind und weitere Einzelheiten erfahren möchten, hinterlassen Sie bitte hier eine Nachricht. Wir werden Ihnen so schnell wie möglich antworten.
einreichen

Heim

Produkte

whatsApp

Kontakt