Monthly Archives

May 2018

Energy Management System Components

By | Energy Management | No Comments

Let’s talk Energy Management Systems; we often hear that they save money and maybe don’t understand the in’s and out’s but an essential piece to beginning to understand them is at the baseline…the equipment. We are going to go over typical equipment that is installed as part of an EMS. Knowing how and what is installed will help your overall understanding of the system, how it functions, and how it positively impacts your facility. These pieces of hardware have 2 primary jobs, to collect data from the system that the piece of hardware is connected to, and provide visibility and control to those selected systems.

The  Brains

This typically consists of an EMS controller or server that communicates with other pieces of equipment that are installed throughout the facility. In our case, the chameleon™ server enables all of the information received from the facility to be communicated up to the cloud where all of this information is then put onto a dashboard that you can view from any browser or our application on any mobile phone platform. The data transmitted from the server to the devices contains schedules, setpoints, and any other automation commands. That’s why when a change is made in the dashboard you see it reflect immediately in your facility. Think of it like this, let’s say someone stops you on the street and they ask for directions. The only problem is they don’t speak English, you pull out your phone and use a translator which tells the person who doesn’t speak English, in their native language how to get where they need to go. Basically, in this scenario, the phone is the server, and the dashboard is the software on the phone, and it communicates to the rest of the equipment the schedules and setpoints you want.


There are several different types of meters, but the idea is all the same. We typically work with metering and submetering. A meter is installed in the facility’s electrical box and measures the amount of energy a facility is consuming. At Small Box Energy we also do sub-metering which is a more granular type of metering. Submetering is when a meter collects information about specific systems in the facility like HVAC or lighting so that you can see how much energy is being consumed by lighting on its own and HVAC as well.


Everyone knows what a thermostat does as far as reading and controlling temperatures in a space, the difference between your household thermostat and an EMS thermostat is the EMS thermostats not only read and controls space temperatures but it collects data and sends that data to the server and up to the cloud where it is used in facility analytics. These analytics help facility managers monitor their locations remotely, reduce costs associated with maintenance, as well as energy consumption.


Typically wired and wireless sensors are placed throughout the facility to monitor specific areas recording specific sets of data. Below are some of the sensors you can find around a facility with an EMS.

Duct Temperature Sensors

These sensors are placed in the air supply and return ducts to measure duct temperatures. This helps with diagnosing problems with HVAC units, by determining what temperature the unit is pushing out.

Space Temperature Sensors

These sensors are placed, typically, in the center of the room so that it can communicate back to the thermostat and server what the current temperature is in that specific area.

Water Heater Sensor

These sensors are placed at the hot water heater to ensure the temperature of the water coming out is heated to proper health code specs.

Remote Temperature Sensors

These are typically wireless sensors that are used for monitoring food prep areas or small reach in coolers. They collect and report temperature data up to the cloud to ensure the food is HACCP compliant.

Photocell Sensors

These sensors interact with the lighting. They are placed outdoors and communicate to the server the amount of light outside. If it is a cloudy day, they


A lighting control panel is usually installed with the EMS, contactors and relays are inside of the control panel itself. With an EMS lighting can be separated into different zones, allowing full remote control of the lighting within a facility. These contactors and relays, communicate to the lighting when it needs to be off and on. Having an EMS allows your lighting to be put on a schedule so you don’t have to rely on people to turn them on and off.


With some energy management systems, there are niche controls that can be installed and communicate data collection up to the cloud. Small Box Energy uses an adaptive controller that is installed in walk-in coolers and freezers. The controller collects temperature data from the walk-in and determines when a defrost is needed. Typically most walk-in coolers and freezers defrost on a time schedule, the adaptive controller enables the walk-in cooler to cut down defrosts dramatically, therefore, saving a sufficient amount in energy consumption.

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The State of our Sustainability

By | Efficiency, Energy Management, Sustainability | No Comments

If you are like most Americans, you probably don’t know what the sustainable development goal 7 (SDG7) is. In 2016 the 17 sustainable development goals of the 2030 agenda for sustainable development by world leaders at the historic UN Summit. It helps ensures the world tackles challenges like poverty, inequalities and assess climate change. The seventh one is Affordable and Clean Energy.

The International Energy Agency just published that the world is not on track to meet the goal of ensuring all of these are satisfied by the year 2030. Right now we are falling short in all areas of the the SDG7, but some significant progress is being made in some areas.

There are 4 different target which includes:

  • Universal Access to Electricity
  • Clean Fuels and Technologies for Cooking
  • Significant Increase in the Share of Renewables in the Global Energy Mix
  • Doubling the Rate of Improvement of Energy Efficiency

Universal Access to Electricity

Significant progress in the access of electricity in more destitute countries recently. With roughly 1 billion people living without electricity the number of people gaining access to electricity has been on the incline since 2010. Even though this progress is vast it isn’t enough to meet the goal, if the trend continues there will be 674 million people without electricity come the year 2030. An interesting find is that off-grid solar solutions are emerging as a significant driver of rural electricity access. This growth has happened due to leadership commitment backed by public financing. 

Clean Fuels and Technologies for Cooking

Clean cooking still has lots of room for improvement. When it comes to household air pollution as a result of efficient stoves is responsible for about 4 million deaths per year, women and children most at risk in that scenario. If current trends continue 2.3 billion people will continue to use traditional cooking solutions in 2030, not only impacting the people cooking but the environment as well. Rapid distribution of clean cooking fuels and technology has not received the acknowledgment from policymakers, so to break the trend policies will have to be put in place to further the advancement.


In 2015 17.5% of world energy consumption came from renewable sources. 9.6% of that 17% came from new forms of renewable energy like bioenergy, hydropower, solar and wind. Based on current trend and policies in place, the renewable energy is expected to reach 21% by 2030 which is still short of the SDG7 target. The rapidly falling costs and new policies have allowed for solar and wind to compete is conventional power sources. China accounted for nearly 30% of growth in the renewable energy consumption in 2015 while the United States remains on the top 20 energy consuming countries and renewable energy consumption is growing at a slow rate. Wide adoption of alternative energy sources and phasing out fossil fuels will help shift the current trend.

Energy Efficiency

Trying to decrease our energy use globally has been successful as of 2015, with a 2.8% decrease, the fastest decline since 2010. This progress is still progress but falls short of the 2.6 yearly decline needed to meet the target of doubling the global rate by 2030. For the periods of 2010-2015, the annual decrease was only 2.2%. With continuing trends, we are expected to exceed 2.4% by 2030. If energy efficiency policies continue to be adopted throughout countries, building codes include energy performance standards for new and remodel builds some improvements to the trend can be made.

These types of research studies make it possible for the world to grow and change. With all the data that is collected, we are able to identify and play up our strengths while still realizing we have opportunities and a long way to go in order to keep this planet alive for the generations to come. Are you doing your part?

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