Time for Change: Energy Transformation for Your Company
We help companies implement energy transformation, reduce CO2 emissions, and secure financing for eco-friendly investments.
We help companies from various industrial sectors optimize costs and reduce CO2 emissions. We offer support in financing energy transformation.
Plastics Processing
In plastics processing, recovering waste heat from production processes like extrusion and injection molding is key to reducing operational costs. Our advanced technologies enable efficient conversion of this heat into electrical energy, further lowering energy consumption.
By implementing our energy management systems (EMS), companies can continuously monitor and optimize energy usage in production halls. Smart technologies automatically adjust settings to meet current energy demands, significantly improving efficiency, reducing the carbon footprint, and supporting sustainable development.
Petrochemical Industry
The petrochemical industry, which processes crude oil and natural gas into products like plastics, chemicals, and fuels, generates vast amounts of heat during processes like catalytic cracking and refining. Our advanced heat recovery systems convert this heat into electrical energy, lowering energy costs and increasing production efficiency.
The application of modern automation technologies and energy management systems (EMS) allows for optimized energy consumption, better process control, and reduced CO2 emissions, leading to more economical and environmentally friendly plant operations.
Industrial Waste Recycling
During recycling, especially in metal and plastics processing, significant amounts of waste heat are generated. Our systems convert this heat into electrical energy, reducing the operational costs of recycling plants and decreasing dependence on external energy sources.
Additionally, by implementing Energy Management Systems (EMS), we enable real-time optimization of energy consumption, improving efficiency and providing better control over recycling processes. These advanced, AI-supported solutions help minimize energy losses and optimize process performance, supporting sustainability goals at the same time.
Chemical Industry
In the chemical industry, where waste heat is generated during syntheses, exothermic reactions, and distillation, our technologies recover this heat and convert it into electrical energy.
Additionally, we implement Energy Management Systems (EMS) and AI-based automation solutions that optimize energy consumption in real-time. With our technologies, chemical companies can not only reduce operational costs and increase efficiency but also meet increasingly stringent environmental regulations while reducing their carbon footprint.
Metallurgical Industry
Steel mills and foundries generate significant amounts of waste heat during the melting of metals. Our solutions allow for the recovery of this heat and its conversion into electrical energy, significantly reducing operational costs.
Additionally, we implement Energy Management Systems (EMS) and AI-based technologies that enable real-time monitoring and optimization of energy processes. With these technologies, metallurgical plants can increase energy efficiency, operate more environmentally friendly, and reduce CO2 emissions at the same time.
Glass Industry
Glass production requires extremely high temperatures, especially during the melting of raw materials in furnaces, which generates vast amounts of waste heat.
Our technologies not only enable the recovery of this heat and its conversion into electrical energy but also introduce Energy Management Systems (EMS) and advanced AI-based solutions that automate energy management in glass factories. This allows companies to optimize their energy consumption, reduce operational costs, and support sustainable development while simultaneously reducing CO2 emissions.
Cement Industry
The cement industry generates vast amounts of heat, particularly during the firing of clinker in rotary kilns, where temperatures reach up to 1,450°C. Our advanced technologies enable the recovery of this heat and its conversion into electrical energy, significantly reducing operational costs.
Additionally, we implement EMS systems and AI-based intelligent technologies that allow for the monitoring and optimization of energy consumption in cement plants. This helps companies increase production efficiency, reduce energy consumption, and lower CO2 emissions, supporting the sustainable development of the industry.
Food Industry
In processes such as cooking, pasteurization and cooling, the food industry generates significant amounts of waste heat. Our technologies allow for its recovery and transformation into electricity, which leads to a reduction in operating costs and CO2 emissions.
Additionally, the use of BMS systems and intelligent energy management solutions ensures real-time optimization of energy consumption. Thanks to these technologies, food plants can operate more efficiently and ecologically, supporting sustainable development and better management of energy resources.
Paper Industry
Paper production requires large amounts of thermal energy, especially during the drying process. Our advanced technologies enable the recovery of this heat and its conversion into electrical energy, reducing the operational costs of paper mills.
Combined with EMS systems and intelligent energy management solutions, companies can optimize energy consumption in real-time, increasing energy efficiency and reducing CO2 emissions. With these technologies, paper mills can operate more sustainably, supporting environmental development and better management of energy resources.
Pharmaceutical Industry
The production of pharmaceuticals requires processes thatgenerate significant amounts of heat, e.g. during chemical syntheses and distillation. Our solutions enablethe conversion of this heat into electricity, which reduces the operating costs of plants and significantly reduces CO2 emissions.
The use ofBMSsystems andtechnologies based on artificial intelligenceallows for real-time monitoring and optimization of energy consumption. Thanks to this, pharmaceutical companies can operate more effectively, in accordance with the principles of sustainable development, supporting global environmental goals and improving their competitiveness on the market.
Automotive Industry
The production of car parts and vehicle assembly generates significant amounts of waste heat. Our solutions allow for the conversion of this heat into electrical energy, reducing energy costs and CO2 emissions.
Additionally, we implement EMS and BMS systems and advanced AI-based technologies that integrate with existing infrastructure, minimizing the need for plant reconstruction. This enables automotive companies to operate more sustainably and efficiently, supporting environmental development and improving the profitability of their operations.
Hotels and Resorts
Large hotels and resortsgenerate significant amounts of waste heat from heating systems, swimming pools, saunas and industrial kitchens. Our solutions allow you torecover this heat and convert it into electricity, which leads to lower operating costs and increased energy efficiency.
Additionally, we implement BMS systems that monitor and optimize energy consumption, enabling more ecological operations. Thanks to our technologies, these facilities can reduce CO2 emissions, which attracts environmentally conscious customers and supports sustainable development.
Transport and Logistics Centers
In large logistics centers and warehouses, waste heat is generated by equipment, refrigeration systems, and other infrastructure. Our technologies allow for the conversion of this heat into electrical energy, reducing operational costs and lowering CO2 emissions.
Additionally, our BMS systems monitor and optimize energy consumption, improving energy efficiency. This enables logistics companies to operate more efficiently, supporting sustainable development while enhancing the effectiveness of their operations.
Large Retail Stores
We help large retail stores optimize their energy costs by recovering heat from heating, cooling, and air conditioning systems. Our solutions convert this heat into electrical energy, reducing energy consumption and lowering operational costs.
Additionally, we contribute to reducing CO2 emissions, supporting more sustainable facility management powered by artificial intelligence (AI). Large retail stores that implement our technologies can operate more efficiently while minimizing their environmental impact.
Large Warehouses
Our technologiesenable large-scale warehouses to recover heat from air-conditioning, heating and refrigeration systems, transforming it into electricity. This allows for a significant reduction in operating costs and energy consumption.
Additionally, our BMS systems support optimal energy management in large warehouse spaces, which increases operational efficiency. Thanks to these solutions, warehouses can operate more efficiently, reducing CO2 emissions and supporting sustainable development.
Zyskaj przewagę dzięki zielonej energii
Inwestuj w technologie, które obniżają emisje CO2, zmniejszają zużycie energii i wspierają rozwój Twojej firmy.
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Wykorzystanie AI w Optymalizacji Kosztów Zużycia Energii
AI rewolucjonizuje zarządzanie energią. System "Smart Energy Pro" od Axtora Energy pomaga firmom optymalizować zużycie energii, redukować koszty i emisje CO2, wspierając zrównoważony rozwój. Oszczędzaj energię i pieniądze dzięki zaawansowanym rozwiązaniom AI. Dowiedz się, jak nasz system wspiera efektywność operacyjną Twojej firmy, analizując dane w czasie rzeczywistym i automatycznie dostosowując zużycie energii do bieżących potrzeb. Dołącz do firm, które już korzystają z naszych rozwiązań i osiągają oszczędności nawet do 70%. Skontaktuj się z nami i zacznij oszczędzać już dziś.
Kluczowe systemy w zarządzaniu energią: EMS, BMS i HVAC
Inwestowanie w systemy EMS, BMS i HVAC to krok w stronę przyszłości, gdzie efektywność energetyczna, redukcja kosztów i zrównoważony rozwój stają się priorytetami. Axtora Energy oferuje rozwiązania, które nie tylko poprawiają wydajność energetyczną budynków, ale także pomagają firmom w transformacji energetycznej i dostosowaniu się do zmieniających się regulacji rynkowych. Wprowadzenie zaawansowanych systemów zarządzania energią może przynieść wymierne korzyści zarówno pod względem finansowym, jak i ekologicznym.
Audyt Energetyczny – Dlaczego Warto Postawić na Efektywność Energetyczną?
Zastanawiasz się, jak obniżyć koszty energii w firmie? Audyt energetyczny to sprawdzone rozwiązanie, które pomoże Ci zidentyfikować obszary, w których tracisz energię i pieniądze. Dowiedz się, jak przeprowadzić audyt z Axtora Energy, aby zwiększyć efektywność operacyjną i zaoszczędzić na rachunkach.
Średnie przedsiębiorstwa mogą znacznie obniżyć koszty dzięki audytowi energetycznemu, który identyfikuje straty energii i wprowadza oszczędne rozwiązania. Axtora Energy wspiera firmy w optymalizacji zużycia energii, zwiększając ich konkurencyjność na rynku.