Embedded Technology for Energy Monitoring and EV Charging

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Embedded technology is redefining energy management and electric vehicle (EV) charging in an era characterized by the quest of sustainability and efficiency. This advanced technology, which is smoothly integrated into our everyday routines, provides a range of functions that enable users to maximize energy generation, track energy usage, and improve the electric car charging process. Let’s investigate embedded technology and see how it can revolutionize the way we build a more connected, greener future.

Embedded technology is the integration of computing capabilities into a variety of systems and devices, ranging from our homes to industrial machinery. Unlike traditional computers, embedded systems are designed to accomplish certain tasks in real time with minimum human interaction. These systems often include microcontrollers or microprocessors, as well as sensors, actuators, and communication interfaces that are precisely coordinated to perform certain tasks effectively.

Energy Consumption Monitoring

One of the biggest challenges faced in modern energy management is effectively monitoring and tracking energy use across many domains, such as residential, commercial, and industrial sectors. This difficulty is addressed by embedded technology, which makes it easier to deploy smart meters and sensors that collect real-time energy use data. These gadgets use complex algorithms and communication protocols to send consumption data to centralized control systems or cloud-based services.

Using embedded technology for energy consumption monitoring provides stakeholders with useful insights into their energy usage patterns, identifying areas of inefficiency, and implementing targeted conservation efforts. Homeowners may trace power use down to specific appliances, allowing them to make more educated decisions about energy-saving initiatives. Similarly, firms may improve their operations by identifying energy-intensive processes and implementing waste-reduction initiatives, lowering costs and strengthening sustainability efforts.

Energy Generation Optimization

In addition to monitoring energy use, embedded technology is critical for maximizing renewable energy generation from sources such as solar and wind. Smart inverters with inbuilt control algorithms provide smooth integration of renewable energy systems with the grid, allowing for dynamic changes depending on changing supply and demand dynamics. These advanced gadgets improve grid stability, reduce power fluctuations, and optimize the use of renewable resources.

Furthermore, embedded systems enable users to apply predictive analytics and machine learning algorithms to forecast energy generation trends, enhance system performance, and anticipate future problems. Solar array owners may use real-time data analytics to fine-tune their systems for maximum production, optimize return on investment, and contribute to the transition to a sustainable energy future.

EV Charging Management

As electric vehicles gain popularity as a sustainable alternative to traditional combustion engine vehicles, effective EV charging infrastructure becomes increasingly important. Embedded technology plays a critical role in this field by allowing the implementation of smart charging stations with enhanced monitoring and control features. These stations integrate embedded sensors and communication protocols to allow for smooth interaction with EVs, monitor charging sessions, and adjust charging settings based on grid circumstances and user preferences.

Furthermore, embedded systems work with smart grid technology to provide demand response, which allows EV charging to be constantly regulated in response to grid limits and pricing signals. This simultaneous interaction improves grid resilience, reduces infrastructure strain, and encourages off-peak charging, maximizing resource use and lowering operational costs for both utilities and end users.

Envision Monitoring provides cutting-edge embedded technology solutions that serve as a starting point for energy efficiency, sustainability, and connectivity. Envision Monitoring's innovative technologies enable stakeholders to properly monitor energy use, enhance renewable energy integration, and intensify electric car charging. These technologies gather data in real time, seamlessly integrate renewables, and effectively handle EV charging, all of which contribute to a more sustainable future.

How Envision’s encharge+ is Reshaping EV Charging

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In the fast-evolving landscape of electric vehicles (EVs), advancements in charging technology are crucial for widespread adoption and sustainability. Envision, an innovator committed to clean energy solutions, has unveiled a groundbreaking product poised to reshape the way we charge EVs: encharge+.

Encharge+ represents the pinnacle of EV charging technology, offering a comprehensive solution that addresses both efficiency and environmental concerns. At its core, encharge+ leverages cutting-edge battery technology to store excess power, optimizing energy usage and reducing strain on the grid. This innovative approach not only enhances the reliability of EV charging but also contributes to a more sustainable energy ecosystem.

Key Features of encharge+

  • Energy Storage: One of the standout features of encharge+ is its ability to store excess power generated from renewable sources or during periods of low demand. By harnessing this surplus energy, encharge+ ensures a consistent and reliable power supply for EV charging, regardless of fluctuations in grid demand or availability.
  • Off-Peak Charging: encharge+ is designed to capitalize on off-peak electricity tariffs, charging EVs during times when energy prices are lower and the grid is less carbon-intensive. This not only translates to cost savings for consumers but also reduces the overall carbon footprint associated with EV charging, aligning with sustainability goals.
  • Grid Resilience: By intelligently managing energy consumption and storage, encharge+ plays a pivotal role in enhancing grid resilience. By mitigating peak demand periods and optimizing energy usage, encharge+ alleviates strain on the grid, minimizing the risk of blackouts and ensuring a reliable power supply for all users.
  • Seamless Integration: encharge+ is engineered for seamless integration with existing EV infrastructure, making it easy to deploy and scale across diverse environments. Whether installed in residential settings, commercial spaces, or public charging stations, encharge+ offers a flexible and adaptable solution for meeting the growing demand for EV charging.

Benefits of encharge+

  • Cost Savings: By leveraging off-peak electricity tariffs and optimizing energy usage, encharge+ delivers significant cost savings for EV owners compared to traditional charging methods. The ability to store and utilize surplus energy further enhances cost-efficiency, making EV ownership more accessible and affordable.
  • Environmental Impact: With its emphasis on off-peak charging and renewable energy integration, encharge+ substantially reduces the carbon footprint associated with EV charging. By minimizing reliance on fossil fuels and prioritizing clean energy sources, encharge+ contributes to a more sustainable and environmentally friendly transportation ecosystem.
  • Reliability and Convenience: encharge+ ensures a reliable and convenient charging experience for EV owners, eliminating concerns about grid instability or fluctuating energy prices. With its robust energy storage capabilities and intelligent charging algorithms, encharge+ offers peace of mind and hassle-free EV charging, empowering users to embrace electric mobility with confidence.
  • Grid Support: As electric vehicle adoption continues to surge, encharge+ plays a crucial role in supporting grid stability and resilience. By optimizing energy usage and smoothing out demand peaks, encharge+ helps alleviate strain on the grid, ensuring reliable power delivery for both EV charging and other critical services.

The introduction of encharge+ represents a significant milestone in the evolution of EV charging technology. By combining energy storage, off-peak charging, and grid optimization capabilities, encharge+ offers a comprehensive solution that addresses the challenges of scalability, sustainability, and reliability in electric vehicle charging.

As the world transitions towards a cleaner and more sustainable energy future, encharge+ stands poised to lead the charge, driving innovation and progress in the realm of electric mobility. With its unparalleled efficiency, environmental benefits, and user-centric design, encharge+ paves the way for a brighter and greener tomorrow.

Latest Innovations in Solar Technology

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Solar energy continues to play a pivotal role in the global transition towards sustainable and renewable energy sources. The constant quest for efficiency, affordability, and scalability has led to remarkable innovations in solar technology. In this article, we will explore some of the latest breakthroughs that are shaping the future of solar energy.

Tandem Solar Cells:

One significant advancement in solar technology is the development of tandem solar cells. Traditional solar cells convert sunlight into electricity using a single layer of photovoltaic material. Tandem solar cells, on the other hand, incorporate multiple layers of materials with varying light absorption capabilities. This allows them to harness a broader spectrum of sunlight, significantly increasing overall efficiency. Researchers are exploring combinations of materials such as perovskite and silicon to achieve tandem solar cells with efficiency levels previously thought unattainable.

Perovskite Solar Cells:

Perovskite solar cells have gained immense attention for their potential to revolutionize the solar industry. These cells use a class of materials known as perovskites, which are inexpensive and easy to manufacture. Perovskite solar cells have demonstrated rapid efficiency improvements, reaching levels comparable to traditional silicon solar cells. Ongoing research focuses on enhancing the stability and scalability of perovskite technology to make it a commercially viable alternative.

Bifacial Solar Panels:

Bifacial solar panels have become increasingly popular due to their unique design that allows them to capture sunlight from both the front and rear sides. These panels can utilize reflected sunlight from nearby surfaces, such as the ground or nearby buildings, boosting overall energy yield. Bifacial technology is versatile and compatible with various solar cell types, offering increased energy output without a significant increase in production costs.

Transparent Solar Cells:

The integration of transparent solar cells into windows, facades, and other transparent surfaces is a groundbreaking innovation. These cells allow sunlight to pass through while simultaneously generating electricity. This application holds tremendous potential for the construction industry, enabling buildings to generate power without sacrificing natural light and aesthetics. Researchers are working to improve the efficiency and transparency of these solar cells for widespread adoption.

Floating Solar Farms:

As available land for solar installations becomes scarce, floating solar farms have emerged as a viable solution. These solar arrays are installed on bodies of water, such as lakes and reservoirs, utilizing otherwise unused space. In addition to maximizing land use, the water-cooled environment enhances the efficiency of solar panels. Floating solar farms also help reduce evaporation, making them environmentally beneficial in water-stressed regions.

The latest innovations in solar technology are propelling the renewable energy sector forward, making solar power more efficient, affordable, and adaptable. Tandem solar cells, perovskite technology, bifacial panels, transparent solar cells, and floating solar farms are just a glimpse into the ongoing research and development within the solar industry. As these technologies continue to mature, they hold the promise of making solar energy an even more prominent and accessible source of clean power for the world. The future of solar energy is bright, with these advancements paving the way for a sustainable and renewable energy landscape. 

Smart Technologies for Smart Energy Consumption

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The search for optimal energy usage has taken on critical importance in a time when every watt of energy counts. The incorporation of smart energy technologies is emerging as a game-changer as we negotiate the challenging terrain of sustainability and cost-effectiveness. The innovative Envision Monitoring system, which provides unrivaled solutions for both ventures and individuals, is at the fore of this energy revolution. 

The Rise of Smart Energy Consumption

The days of estimating when and where energy would be most required and letting use depend on chance are long gone. Real-time decision-making is key to smart energy use, and here is where Envision Monitoring comes into play.

What is Envision Monitoring?

Envision Monitoring is a state-of-the-art solution made to give you the information and control you need to optimize your energy use. It serves as a link between current energy systems and an environmentally responsible and efficient energy future. This is how it goes:

1. Real-time Data Analysis: Envision Monitoring gathers data in real-time from your energy systems and analyzes it to provide you a thorough picture of usage trends. This information is easy to understand because it is provided in a user-friendly design.

2. Predictive Insights: The talented programmers and engineers are working on a system that doesn’t just report facts; it also makes predictions. It will soon employ cutting-edge analytics to forecast future energy requirements, enabling you to make proactive plans and reduce wasting.

3. Remote Control: Envision Monitoring provides remote control features that let you quickly change the settings. No more rushing to the control room repeatedly.

4. Focus on Sustainability: Envision Monitoring is devoted to sustainability. It can effortlessly include green energy sources into your energy mix, like solar panels, lowering your carbon footprint even more.

The Envision Advantage:

Let’s now explore what makes Envision Monitoring unique in the field of intelligent energy use:

1. Customization: There is no one-size-fits-all approach to Envision Monitoring. No matter if you’re a major industrial plant or a private residence, it is suited to your specific requirements. You get precisely what your system needs best. 

2. Cost Savings: Envision Monitoring optimizes energy use, which results in long-term, sizable cost savings. It’s a financial investment as well as a technological one.

3. Impact on the Environment: Envision Monitoring perfectly complements your sustainability objectives. It’s a start in the right direction toward lowering your carbon impact and encouraging wise energy use.

4. User-Friendly: The UI is simple to use and intuitive. Making the most of it doesn’t require you to be an energy expert.

5. 24/7 Monitoring: Imagine continuous monitoring that never stops. It maintains a close eye on your energy systems to make sure they work as intended, day and night. 

Envision Monitoring serves as the defender of effectiveness and sustainability as we traverse an energy-hungry environment. It’s a revolution in the way we use energy, not just smart technology.

Therefore, it’s time to adopt Envision Monitoring if you’re ready to take charge of your energy consumption, save money, and contribute to a greener future. It is the sensible option for sensible energy usage.

Solar Plant Efficiency Through a Monitoring System

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Defining how efficient a solar plant depends on many factors. This includes dust, pollen, dirt, shadows cast by trees and failure of various parts, connectors and cables. It is important to know the problems and eliminate them on time to maximize the return on investment. Monitoring systems for the equipment of solar plants play a crucial role in taking care of these kinds of problems. 

Some PV inverters have the capacity to monitor the amount of electricity produced or some other parameters. These little features of integrated monitoring solutions are not enough to fully assess the power plant’s efficiency. Monitor and control systems must have the capacity to notice the nuances that influence its performance and efficiency. 

Here are some of the benefits of a monitoring system in a solar plant:

  • By having the efficiencies of your PV arrays at your fingertips, it is easy to find out when and where something goes wrong
  • A monitoring system can give you an alert or instant notification if anything about the system falls outside of preset parameters.
  • Energy saving option
  • Minimization of losses due to shading and other effects on the solar panels
  • Reduced maintenance cost and time.

Monitoring system needed in a solar plant must have automated weather stations that provide important parameters including incoming solar radiation, wind, ambient temperature and module cell temperature. These stations provide owners and operators with site performance data. It ensures that the site is performing as expected during the life of the project. 

Monitoring system in a solar plant is very essential in identifying its efficiency. With real-time data analysis, distinguishing between normal fluctuations and anomalies is very easy. Monitoring and control of PV systems is essential for reliable functioning and maximum yield of any solar power plants. 

Things to Consider in a Whole New Network of Fueling

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Electric vehicles have been dominating the car industry due to its positive impact on cost and the environment. Establishments should see this as an opportunity to be part of it. EV chargers are a must to establish and sustain the EV industry. Businesses can take advantage of being a part of the whole new network of fueling – electric charging stations. Here are the most important things to consider in becoming a CUC station:

Can you supply the demand?

Perhaps the most important thing to consider in establishing your own commercial use charging (CUC) station is the demand of electricity the chargers will render to your energy systems. Can you handle the additional load and of course the additional costs this will inflict in your electricity bill at the bottom line? Commercial charging stations are optimally required to use fast chargers which at an average produces 50kW. Make sure your energy facility can provide these charging stations with their demand and sustain it for regular use.

Do you have the space?

Since electric vehicles are becoming more of an inevitable trend of the future, the demand for charging stations would certainly and eventually grow. Is your space enough to accommodate the demand for charging? An average fast charging can take up to 30 mins. This means at some point, some car would have to wait. Make sure your space can accommodate the charging and waiting cars and that it would not overspill to the roads which will then cause disturbance to the traffic.

How can users find out about your charging points?

Aside from being in a prime location, what steps can you take to make sure that your Chargers’ existence is known to the market? Would you have a launching campaign? Or you’ll trust the process and wait till EV users find their way to your charging points? The marketing campaign and effort should also be a factor for you to consider since in this step, you would know how many EV Users are around the area or pass by your location.

Is your space accessible to the users?

Accessibility of your charging station should also be considered, is your proposed location roadside where users can easily turn or plan their stops or is somewhere where they still need to go out of their way just to be able to reach your charging station? If so, you might want to rethink because this can hinder users ultimately decreasing the demand for your station. Remember, lower demand means higher cost of charging.

What chargers and systems are you planning to use?

In establishing charging stations, you should also plan ahead on which brand and type of charger you will use. In the vast market of chargers from different manufacturers, you can consider some factors like dynamic charging capabilities, smart charging capabilities, and the facility to upgrade to cope up with future technology. Basically future-proof chargers are the best to find while of course ensuring their durability and efficiency to charge vehicles without demanding too much from your power.

These considerations bring much value to your establishment making it appreciate over time. Make sure to follow and have these 5 things in sustaining a better future for the electric vehicle industry

Basics of Policy, Regulation and Standards of Net-Metering

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Solar power has come a long way since its humble beginnings. Many establishments, companies and even households are embracing solar as their source of energy to power their homes and businesses. It has become so modern that it continues to advance. One of its biggest and most beneficial advancements to consumers is not just the physical structure of the system, but its way of storing and utilizing the energy generated. Net-metering is an electricity policy for consumers who own renewable energy facilities to allow them to use electricity whenever needed while contributing their production to the grid.

Net metering is the first mechanism of the Renewable Act of 2008 in the Philippines which has been implemented. 

On 27 May 2013, the Energy Regulatory Commission adopted ERC Resolution 09, Series of 2013 approving the Rules Enabling the Net-Metering Program for Renewable Energy. This resolution was published on 10 July 2013 in newspapers of general circulation in the country and took effect 15 days thereafter. Thus, the Net-Metering Rules took effect in the Philippines on July 24, 2013. The Net-Metering Program is available only to On-Grid distribution systems (or DUs connected to the transmission grid). 

Net-metering allows customers of Distribution Utilities (DUs) to install an on-site Renewable Energy (RE) facility not exceeding 100 kilowatts (kW) in capacity so they can generate electricity for their own use. Any electricity generated that is not consumed by the customer is automatically exported to the DU’s distribution system. The DU then gives a peso credit for the excess electricity received equivalent to the DU’s blended generation cost, excluding other generation adjustments, and deducts the credits earned to the customer’s electric bill. Net-metering, as defined under Section 4 (gg) of the RE Law, refers only to a system appropriate for Distributed Generation (DG). DG, as defined under Section 4 (j) of the RE Law, as small generation entities supplying directly to the distribution grid, any one of which shall not exceed one hundred kilowatts (100 kW) in capacity.

Solar, wind, biomass or biogas energy systems or other RE systems not exceeding 100kW in power generating capacity, capable of being installed within the customer premises are eligible for net-metering program. DU customers who are in good credit standing in the payment of their electric bills to their DU are also qualified to participate in the Net-Metering Program for Renewable Energy. These customers are referred to in the Rules as “Qualified End-Users” or QE.

Meanwhile, contestable customers getting their power supply from a Retail Electricity Supplier (RES) are not eligible to join the Net-Metering program. This is because the excess electricity received by the DU from the QE can only be distributed to the DU’s other customers, and the credit to be given for the excess electricity received by the DU is equivalent to the DU’s blended generation costs.

The benefit of going into net-metering reduces the amount of electricity that the user buys from their local DU. The rate of savings and avoided cost realized on electricity generated for own use equates to the DU’s retail rate. It consists of charges for generation, transmission, system loss, distribution, subsidies, taxes and other charges. Net-metering makes the user earn peso credits on any excess electricity exported to the DU equivalent to the DU’s blended generation cost, excluding other generation adjustments. The peso credits earned is used to reduce the user’s electric bill. Users can identify the DU’s blended generation for a particular month by accessing its website. DUs are required to publish in their website their monthly generation cost. In that way users can know how much credit they are entitled to on any excess electricity exported to the DU.

DU may opt to install two uni-directional meters to measure import and export  energy. One is to meter energy the user buys from local DU and the other is to meter the energy that the user exports to the DU. The DU may at its option install a single bi-directional meter if it finds it to be more economical. This meter can meter both import and export energy. DU may also install a third meter in proximity to the RE facility to meter its RE generation. The total RE generation shall earn for the host DU RE Certificates which the DU can use to comply with Renewable Portfolio Standards (RPS) obligations.

Availability of net-metering will still incur additional charges. DUs shall impose a net-metering charge to all its customers who avail of net-metering equivalent to their existing ERC-approved supply and metering rate based on the exported energy as registered in the export meter. These charges shall cover the DU’s incremental costs related to system enhancement and additional meter reading and other operating costs. DUs also have the ability to apply  a different schedule of net-metering charges subject to ERC approval after due and hearing. These charges shall prevail until a different schedule of net-metering charges is approved by ERC.

Aboitiz Started their Energy Efficiency Journey

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Aboitiz chose Envision for their energy efficiency journey. Envision is a complete energy management ecosystem. From embedded hardware to our cloud-based energy monitoring platform, you can visualize, analyze and manage your energy wherever you are. Starting the energy efficiency journey since 2018, Envision has been providing energy solutions to meet our clients’ needs.

Aboitiz chose Envision for their energy efficiency journey in one of its sites at Metro Manila. The system has been operational. Comprising four Sungrow 20kW inverters, this system is able to have a total of 80kWac and 99.66kWdc. Part of the system is a consumption meter with 460V. Solar Production Meter is also installed. 

Moreover, Envision was also able to install the monitoring system at another Aboitiz’s site in the North of Metro Manila. It is already done in the installation procedure and soon will be operational with a 240kWac and 303.6kWdc output from four Sungrow 60kW inverters. It also contains two consumption meters which have 440V and 230V systems. A Solar Production Meter is also present in the system. 

Part of the future installation on the systems of the two projects are weather stations on its rooftops. It will gather temperature, humidity, irradiance and back panel temperature. These stations are composed of  instruments and equipment for measuring atmospheric conditions to provide information for weather forecasts and to study the weather and climate. Both systems have zero-export functionality that curtails excess solar to prevent it from injecting into the grid.

Through the energy monitoring systems brought by Envision, these sites will be able to see their consumption data in real time. They will also be capable of identifying peak energy hours of these two business establishments which is a very powerful way to conserve electricity. Understanding how the energy meter runs is the key to knowing the energy data consumed real-time.

EMS, Much needed in this Electricity Rate Hike

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Electricity hike started since the Russia-Ukraine conflict began. This was also followed by sudden inflation in oil price that brings most commodities its rapid boom in prices. Since the conventional source of electricity in the Philippines mostly comes from oil, the bill of every household and business entity has come to a surprise due to sudden blow up of electricity rate per kwh consumption. So even if we are able to retain the usage of appliances, business equipment and the like, the electricity bill that comes startle us.

Energy consumption is very efficient when effectively monitored. Basic kilowatt hour (kWh) monitoring helps users accurately identify portion of the total energy usage is derived from certain appliances/equipment. Businesses greatly benefit from the Energy Management System (EMS). Knowing the energy consumption data is the best way to conserve electricity. With the continuous inflation in commodities, we can not avoid the increase in grid electricity charge. Having EMS makes you aware of the energy consumption of your establishment.

It is necessary to identify the main contributors of certain energy peaks; your smartphone can alert you and exactly know it real-time. Users are able to apply energy saving practices to dodge higher electricity bills when they know the energy consumption data of their establishment.

This is the great thing of having EMS for your business. You have the advantage of monitoring and controlling your energy now that electricity rate per consumption is very resilient. Understanding how your energy meter runs, is the key to knowing the energy data consumed real-time.

Energy Efficiency and Conservation Act Signed After Three Decades

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Since 1988, the Department of Energy has been pushing for the approval of the Energy Efficiency and Conservation Act (RA 11285).  The Act had been under review since the 8th congress before being  applied for the next years. Then, DOE, after many years of trying to move this act forward, has finally achieved it in 2019 thru the approval of the Bicameral Conference Committee. Even with this development, the Philippines is still the last one in the South East Asian Region to implement a law that incentivizes the use of energy efficiency products to reduce energy consumption.

The Energy Efficiency and Conservation Act institutionalize energy efficiency and conservation, enhancing the efficient use of energy, granting incentives to energy efficiency and conservation projects. Also, the act aims to standardize energy consumption measures by the regulation of energy efficient technologies in buildings.

Furthermore, the act will mandate the creation of a National Energy Efficiency and Conservation Plan that defines national targets, details feasible strategies, and imposes a regular monitoring and evaluation system which will be reflected by LGUs on a local level.

Aside from that, the government will also create an Inter-Agency Energy Efficiency and Conservation Committee that will provide direction on the implementation of the Government Energy Management Program. The main focus of the program is to reduce energy consumption thru electricity and petroleum products of government agencies.

As per the chairman of the Senate Committee on Energy, Senator Win Gatchalian, its approval will be helpful as it does not include problems heralded by creating more plants to cater to the power needs of the future generation. He said that if we are saving energy now, we might not need to worry about adding more plants in the near future.

With this development, the World Bank projects that the government will be able to save at least 3.4 billion pesos per year by using energy efficient projects. Also, a 10% increase in energy efficiency will give us a saving s of at least 55 billion pesos which will decrease electricity bills of households for at least 140 pesos monthly.

How will this affect businesses? Contributing to the goal of reducing energy consumption should also be considered by businesses, because of the long term benefits this endeavor entails. To this, there are different technologies out there in the market that can assist in energy efficiency.

If you are thinking of using Envision Monitoring System to help you get incentives for efficiently using energy, let us know. Envision is an Energy Monitoring System with a goal of efficient energy use and reduced energy consumption in your facilities. With that, we’ll show you how you can contribute to reducing the ever-growing demand of energy consumption here in the Philippines.


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