Apartments for Rent in Bradenton FL

Bradenton Apartments for Rent

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Apartments for Rent in Bradenton, FL

The coastal city of Bradenton, Florida resides on the banks of the Manatee River just 45 miles south of Tampa and 25 miles south of St. Petersburg, crossing over the iconic Sunshine Skyway Bridge. Bradenton is home to the Bradenton Marauders at LECOM Park where residents and tourists alike gather for baseball games and events. The South Florida Museum is a huge hit with families complete with a planetarium, aquarium, and history museum. If you’re looking for restored historical buildings, be sure to visit the Manatee Village Historical Park, where you’ll find artifacts on pioneer life in Florida.

Residents enjoy browsing the Red Barn Flea Market, as well golfing at River Run Golf Links or Pinebrook Ironwood Golf Course. Community parks are abundant, and the city even has a dog park, Happy Tails Dog Park, at G.T. Bray Park. Visit the Riverwalk for open green space, a community amphitheater, kid-friendly splash park, and picturesque views of Manatee River. Enjoy a cold craft brew at Motorworks Brewing, Bradenton’s first craft brewery. Find your ideal apartment in Bradenton and begin enjoying its scenic views and plentiful amenities!

Frequently asked questions

What is the average rent in Bradenton, FL?

The average rent in Bradenton, FL is $937

What is the average rent of a Studio apartment in Bradenton, FL?

The average rent for a studio apartment in Bradenton, FL is $840

What is the average rent of a 1 bedroom apartment in Bradenton, FL?

The average rent for a 1 bedroom apartment in Bradenton, FL is $937

What is the average rent of a 2 bedroom apartment in Bradenton, FL?

The average rent for a 2 bedroom apartment in Bradenton, FL is $1,168

What is the average rent of a 3 bedroom apartment in Bradenton, FL?

The average rent for a 3 bedroom apartment in Bradenton, FL is $1,472

How transit friendly is Bradenton, FL?

Bradenton, FL has a transit score of 25

What are the top Elementary schools in Bradenton, FL?

The top elementary schools in Bradenton, FL are

  • Gene Witt Elementary School
  • B.D. Gullett Elementary School
  • Braden River Elementary School
  • Palma Sola Elementary School
  • Tara Elementary School

What are the top middle schools in Bradenton, FL?

The top middle schools in Bradenton, FL are

  • R. Dan Nolan Middle School
  • Louise R. Johnson Middle School
  • Carlos E. Haile Middle School
  • Braden River Middle School
  • Manatee Virtual Franchise (Etech School Of Manatee)

What are the top high schools in Bradenton, FL?

The top high schools in Bradenton, FL are

  • Lakewood Ranch High School
  • Braden River High School
  • Southeast High School

What colleges and universities are in Bradenton, FL?

Some colleges and universities in Bradenton, FL are

  • State College of Florida, Manatee-Sarasota
  • New College of Florida
  • Ringling College of Art and Design

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efficient

adjective

QUIZZES

SOW THE SEEDS OF KNOWLEDGE WITH THIS PLANT QUIZ FOR KIDS!

Origin of efficient

SYNONYMS FOR efficient

OTHER WORDS FROM efficient

Words nearby efficient

Words related to efficiently

Example sentences from the Web for efficiently

“We can do this efficiently and we can do a good job,” he says.

I ask Peggy how she learned to size women up so efficiently and effectively.

We know nothing of how efficiently , or otherwise, any of these tasks were performed.

Zeitz efficiently shows how their lives parallel and depart from the larger story of a rapidly changing America in those decades.

The market effectively and efficiently evaluates the outcome of the activist plans as being good for the company—period.

The probe lights glowed from the walls and ceiling, efficiently X-raying his bag and his clothing for any prohibited imports.

It is clear that public charities within the States can be efficiently administered only by their authority.

When crops are in drills they can be efficiently thinned, weeded and hoed—in other words, they can be cultivated.

His confidence in his magic bone was growing to sublimity as he noted how efficiently it carried him through every crisis.

So ably and efficiently did Major Braxton represent his constituents that he won another election without any opposition.

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San Francisco Apartments for Rent

Apartments for Rent in San Francisco, CA

San Francisco is known for an array of attractions like the Golden Gate Bridge and Alcatraz, Chinatown and cable cars, the Painted Ladies and Fisherman’s Wharf, and so much more. This bayside city offers something for everyone. From its hilly streets to the sparkling water of the San Francisco Bay, this city is truly iconic. But it’s not just a tourist destination – San Francisco is a major metropolis with a powerhouse economy, featuring businesses like Dropbox, Reddit, Levi Strauss & Co, Wikimedia Foundation, Yelp, Twitter, and Weather Underground.

San Francisco is full of famous neighborhoods, from Haight-Ashbury and Pacific Heights to the Mission District and the Castro. Each district features its own distinctive personality. The art, culture, and entertainment scene in San Francisco is alive and well. Check out the San Francisco Museum of Modern Art, Golden Gate Park, Lands End Lookout, Union Square, Oracle Park, and the city’s sandy beaches like Ocean Beach and Baker Beach.

Several universities and colleges call San Francisco home, including the University of San Francisco, San Francisco State University, and the University of California, San Francisco. While you’ll find great mass transit options in this walkable city, the most popular mode of transportation for locals is cycling. San Francisco is the second most walkable city in the country, and earned “Gold” status from the League of American Bicyclists.

Frequently asked questions

What is the average rent in San Francisco, CA?

The average rent in San Francisco, CA is $4,514

What is the average rent of a Studio apartment in San Francisco, CA?

The average rent for a studio apartment in San Francisco, CA is $3,023

What is the average rent of a 1 bedroom apartment in San Francisco, CA?

The average rent for a 1 bedroom apartment in San Francisco, CA is $4,514

What is the average rent of a 2 bedroom apartment in San Francisco, CA?

The average rent for a 2 bedroom apartment in San Francisco, CA is $5,383

What is the average rent of a 3 bedroom apartment in San Francisco, CA?

The average rent for a 3 bedroom apartment in San Francisco, CA is $4,143

How transit friendly is San Francisco, CA?

San Francisco, CA has a transit score of 73

What are the top Elementary schools in San Francisco, CA?

The top elementary schools in San Francisco, CA are

  • Yu (Alice Fong) Elementary School
  • Ulloa Elementary School
  • Sunset Elementary School
  • Lilienthal (Claire) Elementary School
  • Lafayette Elementary School

What are the top middle schools in San Francisco, CA?

The top middle schools in San Francisco, CA are

  • Giannini (A.P.) Middle School
  • Presidio Middle School
  • Roosevelt Middle School

What are the top high schools in San Francisco, CA?

The top high schools in San Francisco, CA are

  • Lowell High School
  • Asawa (Ruth) San Francisco School Of The Arts, A Public School.
  • Washington (George) High School
  • Lincoln (Abraham) High School
  • Wallenberg (Raoul) Traditional High School

What colleges and universities are in San Francisco, CA?

Some colleges and universities in San Francisco, CA are

  • University of California, San Francisco
  • University of San Francisco
  • Academy of Art University

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Odessa Apartments Daily Rentals

The city of Odessa is emerging on the world arena and now is a perfect time to plan a visit! It is full of vibrant nightlife, museums, beautiful architecture and relaxed atmosphere — all for your enjoyment at world’s lowest prices. The capital of Ukraine is in your hands and we are here to provide you with a perfect apartment for your stay in Odessa.В

We at OdessaApts Apartments offer:

  • Exclusive, high quality accommodations;
  • Safe centrally located apartments;
  • full range of hotel services upon request
    for the whole term of your stay.

We specialize only in apartments for rent in Odessa, therefore our intimate knowledge of the city provides us with a clear advantage. You can search for any type of accommodation that Odessa offers, ranging from cheap apartments to luxury ones, with such amenities as Jacuzzi, Sauna, patio, etc.В

For our guests we offer all types of apartments rental services including:

  • daily rent;
  • monthly rent;
  • lon-term rent (6 months-1 year);

Lowest Price Guarantee

We are so confident we have the lowest prices — we promise to beat or match competitors price or we will give you a FREE night!

odessaapts.com

The Claremount

Welcome to The Claremount, an apartment community for those 62 and better. Enjoy the comfort of quiet, community living here at The Claremount!

Our spacious 1 and 2 bedroom apartment homes are thoughtfully designed with your comfort and convenience in mind. In addition to our great floor plans and maintenance free living, our community has the amenities you want and deserve. For your pleasure, our community features on-site laundry, a library, and a community room.

For your benefit, our community’s service coordinator is readily available to assist you with your needs.

The Claremount is ideally situated to give you easy access to the best of what the area has to offer. We are located a short distance from the Clarence Senior Center, Clarence Library, Antique World Flea Market (Western New York’s largest indoor/outdoor flea market), and numerous shopping centers.

Here at The Claremount, we understand that your pet is a special part of your family. We are pet friendly and look forward to making your furry friend a part of our community!

Call us today to make an appointment to see for yourself why The Claremount should be your new home. We look forward to hearing from you!

www.theclaremount.com

Electric Car Charging “SubNet” For Apartments, Condos, & Office Buildings

March 9th, 2020 by Guest Contributor

Originally published on EVANNEX blog
By William Truesdell, EVmatch

Electric vehicle sales in the U.S. are nearing 1.5 million, with significant growth recorded month over month since 2011 (see Veloz chart below). At this rate, the U.S. is slated for 1.28 million EV sales in 2026 alone. While we’re at it, let’s throw another number into the mix: 20×. There’s a projection there will be 20× more EVs on the road by 2030 than today.

Quarterly sales of electric cars (Source: Veloz)

Now that I’ve sufficiently muddled your mind with numbers, let’s talk about charging. In 2030, over 30 million EVs will require charging infrastructure. There are a number of efforts underway to increase public charging, especially fast charging along major highway corridors by players like Electrify America and Tesla. But if today is any guide, more than 80% of charging will continue to take place at home. That’s great news for homeowners since most “fueling” won’t even take a trip to a station across town; instead, they can pull into their own garage and charge up overnight.

But what about over 40% of Americans who rent or live in multi-unit dwellings? Most of these buildings were designed (and built) long before EVs hit the mainstream. As a result, they lack charging infrastructure and most retrofitting options today are simply too expensive for the owner’s or HOA’s budget.

A Tesla Model 3 arrives at an apartment building, by Zachary Shahan | CleanTechnica

EVmatch has a solution. The California-based company can help install affordable smart charging stations, cover electricity costs, and even allow you to earn extra money when renting your stations to the public. Payment processing, booking, and SubNet features allow EV drivers to reserve a charger for a specific time period, ensuring efficient sharing and optimal utilization among residents.

Why Reservations?

For those of you who drive EVs, I’m sure you can relate to this experience. In any setting, it follows a similar pattern. Maybe you show up at your workplace hoping to charge during the day so you can make your commute home. You arrive at the office to find all the chargers occupied. That’s okay, you’ll check your email and run back out to see if one has become available. Still no luck. At lunch, you look out the window to peek around the corner at the chargers. Two new cars have moved in. Meetings gobble up the afternoon, and before you know it, it’s already 4 o’clock. You run down with hopes of charging for the last hour of the day. Fortunately, one charger has become available. You gain about 25 miles of charge by 5, just enough to make it home. You pull into your garage and think, “Maybe this car isn’t right for my commute.”

Charging shouldn’t be this stressful, and it’s not hard to imagine how difficult it would be for tenants in a multi-unit dwelling to share a charger if they didn’t have a way to book and reserve them. That’s why EVmatch built a reservation system for EV drivers. Whether you’re at home or at the office, you can make a reservation through the EVmatch app to charge for a specific time period, eliminating the stress of jockeying for a charger.

How SubNet Works

An especially exciting new feature is called SubNet: a customized group management system designed to enable flexibility in how you manage EV charging. It works in any commercial setting, like college campuses, business parks, hotels, or gyms, and allows station owners to set specific pricing and availability for different groups. For example, a co-working office can offer free charging to its members and then rent stations to the general public for a fee at specific hours. The SubNet leverages access codes and idle fees to ensure smooth scheduling and usage of chargers.

A “host” can manage her charging station(s) with the SubNet feature right within an app. (Image: EVmatch)

With this new SubNet feature, EVmatch is able to provide an ideal charging solution for multi-unit dwellings. Multi-unit dwelling owners install affordable charging stations with EVmatch and then have the option to rent them out to both tenants and the public through SubNet for quick recuperation of installation and electricity costs.

SubNet allows you to customize charging station access to meet the unique needs of your business, organization, or multi-unit dwelling.

Here are a few SubNet use cases:

  1. Multi-Unit Dwellings — Low-priced tenant user group and a more expensive public user group. Public can access stations when most tenants are away from home.
  2. Campus Charging — Student, employee, and public user groups. Public access on the weekends and students receive discounted or free pricing.
  3. Lodging Destinations — Guest, employee, and public user groups. Distribute codes to guests for exclusive access and pricing that can be deleted after their stay has ended.
  4. Workplace Charging — Employee and public groups. Can be priced to recover electricity costs from employees but charge a higher rate to members of the public.

If you’re a tenant, manager, or owner of a multi-unit dwelling, or you have another commercial location and you’re interested in charging stations, it might be worthwhile to contact EVmatch to learn more about the company’s flexible (and affordable) solutions.

Source: EVMatch. Author Bio: William Truesdell has always been interested in creative ways to advance clean energy. He works day in and day out to advance EV adoption by increasing public charging options and busting EV-related myths. William has worked in the political sector managing nonprofit, candidate, and issue advocacy campaigns as well as for elected officials at the Colorado State Legislature to move the ball on energy and climate policy. He holds a BA from the University of Colorado, Boulder.

Featured Image: Tesla Model 3 and BMW i3 at Apartment Complex, Zach Shahan | CleanTechnica

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It will make you happy & help you live in peace for the rest of your life.

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Guest Contributor is many, many people. We publish a number of guest posts from experts in a large variety of fields. This is our contributor account for those special people. 😀

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Find Out Which Appliance Is Sucking All Your Power

Sense’s $299 gadget identifies individual devices in the home and exactly how much electricity they are using.

Is your garage door opening right now? Is your washing machine running? A growing number of products attempt to give consumers data on the sources of their household energy use—crucial data for home efficiency efforts and utility peak-hour conservation programs.

But Sense, a startup in Cambridge, Massachusetts, is the first to offer a consumer product that reads incoming household power levels a million times per second—enough to tease out telltale clues to which specific appliances, even low-wattage ones, are operating in real time. “It’s at the cutting edge of what I have seen people attempting in this area,” says Michael Baker, a vice president at SBW, an energy efficiency consultancy in Seattle.

The Sense unit includes two induction loop sensors for installing around service mains, a box for initial analysis of data, and an antenna for sending data to a home Wi-Fi unit and to the cloud.

The company says it can accurately disaggregate 80 percent of home energy use; it can do things like detect a microwave oven through its very specific startup and operating power “signature,” or sense a washing machine thanks in part to subtly increasing demand on the motor as the drum fills with water. As it identifies garage door openers, toasters, microwave ovens, washing machines, heaters, and refrigerators, it displays them on an app as a newsfeed and a series of labeled bubbles.

Sense—founded by speech-recognition veterans whose technology ended up in Samsung’s S-Voice and Apple’s Siri—consists of a box about the size of an eyeglasses case installed inside or next to an electrical service panel. Two inductive current sensors sense current, and two cables power the box and sense voltage. The box does some onboard processing, and then uses Wi-Fi to send data to the cloud for further analysis and aggregation with data from other users to improve its accuracy.

The Sense unit, shown installed in a conventional electric service panel.

While Sense’s initial business model is based on selling the hardware for $299, the long-term play is in the data: Sense will retain rights to the data and expects to eventually serve personalized recommendations. It also hopes to sell anonymized data and insights to companies like utilities or insurance companies.

Green Mountain Power, an electric utility serving 260,000 customers in Vermont, is planning to pilot the technology in customer homes in the town of Panton. The goal: to get homeowners interested in monitoring home energy usage—the necessary first step toward getting them to do things like shut off equipment at critical peak times or better align their household usage with household solar power generation (another data point Sense can track).

The utility already has so-called “smart meters” that collect data at eight- to 12-second intervals and plot it for customers in an app, but “we found that data at this resolution isn’t all that interesting,” says Todd LaMothe, a software development manager at the utility. “We were pleasantly surprised by the quality of the appliance disaggregation and data visualization in the Sense app. Your home is interacting with you—it’s telling you what it’s doing. That’s the next generation we are looking for.” (Sense requires no smart meters or other advanced technology in the home, other than a Wi-Fi connection.)

The Sense app displays data in real time as bubbles that contain the name of the device. A news feed describes the day’s events and will include recommendations for energy conservation.

A number of consumer systems for monitoring home energy exist—but are generally of low resolution and look only at entire-household energy use. Navetas allows you to track electricity consumption in real time, analyze trends, and set goals, but does not disaggregate what is causing the load. Bidgely services utilities that have installed smart meters. By sampling meter data every few seconds, it can spot trends or major anomalous events, like a big overnight load that suggests an appliance such as an electric oven was accidentally left on. Another startup, Neurio, is developing a similar system but is only able to see high-wattage devices.

As more consumer appliances become Internet-controlled, Sense can govern interactions with them. “Intelligence in the home starts with good data about what is going on, so that’s our focus right now—developing that data,” says Sense CEO and cofounder Michael Phillips, who a decade ago cofounded Vlingo, a voice-recognition startup that developed speech recognition for mobile phones and virtual assistants. “Until now nobody has been able to make this work, because the real world is more challenging than expected.”

It can take a month of “observing” the home before the technology will fully identify what’s doing what. I tested it at my house over the past week. So far it has detected my fridge, washing machine, and dryer. I was surprised to see a big spike in demand at certain times when my dishwasher was running. That’s how I learned that it takes 1,200 watts just to heat water within dishwashers. I also saw that my house never consumes less than 64 watts, due to “always on” things like routers.

I found myself switching things on and off to see what they consumed. I quickly realized that my decades-old attic fan—out of sight, out of mind—was consuming 500 watts. So I’m already planning to get rid of it and install a gable vent instead, and let convection do the same job.

www.technologyreview.com

Building Energy Use Benchmarking

You are here

Benchmarking is the practice of comparing the measured performance of a device, process, facility, or organization to itself, its peers, or established norms, with the goal of informing and motivating performance improvement. When applied to building energy use, benchmarking serves as a mechanism to measure energy performance of a single building over time, relative to other similar buildings, or to modeled simulations of a reference building built to a specific standard (such as an energy code).

Benchmarking is useful for state and local government property owners and facility operators, managers, and designers. It facilitates energy accounting, comparing a facility’s energy use to similar facilities to assess opportunities for improvement, and quantifying/verifying energy savings.

Commercial building energy performance benchmarking is a foundational element of an organization’s energy management strategy because you can’t manage what you don’t measure. Across many commercial building markets, the practice has become standard operating procedure as energy costs and associated environmental and sustainability issues have raised awareness around the importance of energy management. To assist with the connection between benchmarking and energy management, the following topics reference appropriate portions of energy management resource guides.

A planned approach to benchmarking helps create a more viable and usable benchmarking system. The plan should determine the purpose for the benchmarking program and the intended audience for the program results. It is important to identify the metrics necessary for communicating the results appropriately and recognizing the data needed to produce those results. The plan should evaluate the roles of the benchmarking team members, how the data will be collected, and how the plan will be implemented.

The following steps provide a framework for designing a benchmarking plan:

  1. Establish the goal for benchmarking
  2. Secure buy-in from leadership
  3. Build a benchmarking team
  4. Identify output metrics
  5. Identify data inputs
  6. Select a benchmarking tool
  7. Determine the collection method
  8. Consider a data verification process
  9. Evaluate analysis techniques
  10. Communicate the plan
  11. Plan for change

DOE Resources:

  • Designing a Benchmarking Plan: This guide provides details, examples, tips, and tools for each of the steps that provide a framework for designing a benchmarking plan.

Other Resources:

  • ENERGY STAR® Building Manual Chapter 2: Benchmarking: This document links project goals with the various types of benchmarking and provides guidance on scope, data requirements, engaging partners, data collection and evaluation, and results utilization.
  • ENERGY STAR Guidelines for Energy Management
    • Step 2 Assess performance
    • Step 4 Create action plan
  • eGuide for ISO 50001: The U.S. Department of Energy (DOE) eGuide to ISO 50001 is a toolkit designed to help organizations implement an energy management system through an organized, step-by-step process:
    • Step 2.3.4 Record significant energy uses and method used
    • Step 2.3.5 Analyze and track significant energy uses
    • Step 3.1 Establish energy objectives and targets
    • Step 3.2 Formulate energy management action plans.

A wide variety of benchmarking tools are available. Tools vary depending on capabilities and cost, ranging from simple spreadsheets to custom-designed Web-based tools. The benchmarking tool selection process is driven by the goals of a benchmarking program. When evaluating data management systems, ensure that the requisite outputs can be generated by the tool and evaluate the data inputs required. It is helpful to compare the capabilities of several tools and consider consulting a peer when evaluating data management systems.

DOE Resources:

  • Building Energy Software Tools Directory: This directory provides links to extensive lists of benchmarking tools and can be viewed by subject, platform, country, or alphabetically.
  • Buildings Performance Database: This interactive database allows users to perform statistical comparisons between their buildings and similar commercial and residential buildings across the country to identify potential energy savings and financial performance of specific energy efficiency improvements
  • Designing a Benchmarking Plan Section 6. Select a Benchmarking Tool: This document provides information on factors to consider when selecting a benchmarking tool.
  • Energy Asset Score Tool: This tool helps building owners and managers disaggregate building energy information and includes a mechanism for identifying energy improvement opportunities.

Other Resources:

  • Benchmarking Starter Kit: This kit provides step-by-step guidance and access to ENERGY STAR Portfolio Manager.
  • Energy IQ: This interactive tool displays a dashboard with a graphical representation of selected energy metrics for buildings of a defined size, location, age, and type.
  • ENERGY STAR Portfolio Manager: This interactive online energy management tool allows tracking energy and water consumption across an entire portfolio of buildings.
  • Guide to Choosing Utility Bill Tracking Software for Your Facility: This site lists factors to consider when choosing a desktop utility bill tracking software.

Outreach, engagement, and communication are key to a successful benchmarking program. Buy-in and participation from organizational leadership ensures the program receives the resources it requires and helps others involved see the program as important and worthwhile.

Creating a comprehensive benchmarking plan and clearly communicating it to the team members helps all involved personnel understand the specific actions required of their roles and demonstrates the usefulness of the program and how the data collected drive program impact.

Holding kickoff meetings and launch events will get the project off to a strong start, and regular check-ins will help monitor progress and maintain momentum. Providing training to team members ensures data quality and provides opportunities for professional development.

DOE Resources:

  • Designing a Benchmarking Plan Section 2: Secure Buy-in from Leadership: This document presents the case for involving organizational leadership in the benchmarking program.
  • Designing a Benchmarking Plan Section 3: Building a Benchmarking Team: This document identifies the important roles and responsibilities that must be filled to form an effective team.

Other Resources:

  • eGuide for ISO 50001: DOE’s eGuide to ISO 50001 is a toolkit designed to help organizations implement an energy management system through an organized, step-by-step process:
    • Step 1.2 Secure top management commitment
    • Step 1.2.2 Appoint a management representative
    • Step 1.2.3 Assign the members of the energy team
  • ENERGY STAR Building Manual Chapter 2.2: Develop a Benchmarking Plan – Engage Partners: This document explains the benefits of engaging internal and external partners in the benchmarking program.
  • ENERGY STAR Guidelines for Energy Management
    • Step 1 Get Your Client to Commit
  • ENERGY STAR Training: This set of training resources can help members of the benchmarking team become more comfortable with the ENERGY STAR Portfolio Manager tool.

Identifying the data needed to measure and communicate results is the first step of data collection. Data collection is aided by establishing clear roles and identifying avenues for data access. It is important to account for the datasets necessary for benchmarking. This could include inventorying facilities and basic space characteristic information, asset information, operating characteristics, energy project timelines, cost information, and energy consumption data. Delegating collection responsibilities may help create a more manageable process and can empower end users in the decision-making process.

DOE Resources:

  • Designing a Benchmarking Plan Section 4: This section helps identify the output metrics needed to support benchmarking goals.
  • Designing a Benchmarking Plan Section 5: This section identifies the data inputs required to generate the required output metrics.
  • Designing a Benchmarking Plan Section 7: This section discusses methods for gathering the required data.
  • Standard Energy Efficiency Data Platform: This software tool provides a standard format for collecting, storing, and analyzing building energy performance information about large portfolios.

Other Resources:

  • eGuide for ISO 50001: DOE’s eGuide to ISO 50001 is a toolkit designed to help organizations implement an energy management system through an organized, step-by-step process:
    • Step 2.2.1 Identify data needs
    • Step 2.2.2 Determine availability of data
    • Step 2.3 Determine significant energy uses.
  • ENERGY STAR Building Manual Chapter 2.3: This manual discusses the issues involved in collecting the required data.
  • ENERGY STAR Guidelines for Energy Management
    • Step 2 Assess Your Clients’ Energy Performance
  • ENERGY STAR Portfolio Manager Data Collection Worksheet: This worksheet can be completed by building owners and managers to collect the data required to benchmark buildings using the U.S. Environmental Protection Agency’s ENERGY STAR Portfolio Manager

After collecting data, some processing is required to ensure the information is accurate or reasonable. This process may vary depending on the level of detail needed and the analysis intended. Use the verification process to promote accurate and transparent reporting. Consider the following when developing a verification process:

  • Ensure staff members are trained, which is one of the best ways to ensure quality reporting from the ground up.
  • Filter for unusually high or low energy use intensity (EUI) values compared with the national median EUI values for buildings of specific types, as provided by the Commercial Buildings Energy Consumption Survey (CBECS).
  • Compare the reported footprint with building inventory lists or real property data.
  • Confirm the appropriate facility type is selected for facilities.
  • Scan for gross rounding of footprint values.
  • Ensure facility names appear appropriate and real (e.g., not «sample facility»).
  • Perform onsite verification (sometimes through a third party).
  • Consider random sampling of utility meter data to allow for more in-depth spot checks.
  • Establish a protocol for filling in gaps in data as needed (because not all data will be perfect).

DOE Resources:

  • Commercial Reference Buildings:This site lists the building type, size, and location specifications for each building in DOE’s database of commercial reference buildings (or benchmark models), which make up 70% of the commercial buildings in the United States.
  • Designing a Benchmarking Plan Section 8: Consider the Data Verification Process: This section describes the process of performing quality assurance on the data collected.

Other Resources:

  • ASHRAE Standard 100, Energy Efficiency in Existing Buildings: Page 34 of this standard provides the EUI for the top 25% of existing buildings. Comparison with these data provides a useful check of data validity.
  • CBECS Performance Targets: This table provides the median energy use intensity for common facility types and can be used to gauge the validity of submitted data.
  • ENERGY STAR Training: This set of training resources can help members of the benchmarking team become more comfortable with the ENERGY STAR Portfolio Manager tool.

Analyzing and interpreting benchmarking results facilitates data-driven decision-making. The level of analysis will depend on the detail of the data collected. A few basic analysis techniques include:

  • Compare against the baseline—track a building’s or facility’s energy use against itself over time.
  • Compare with energy simulation/energy modeling—use an energy modeling tool to evaluate a building’s energy performance versus potential performance.
  • Perform a statistical review—compare with CBECS data for national median EUI or Portfolio Manager’s national energy performance rating.
  • Compare across portfolio—evaluate the performance of individual buildings to similar buildings or the portfolio average.
  • Start high-level and zoom in for detailed analysis as required—review portfolio- or department-wide energy performance to identify low-performing groups of buildings; target buildings with high EUIs for further investigation.

DOE Resources:

  • Designing a Benchmarking Plan Section 9: Evaluate Analysis Techniques: This document outlines the issues and considerations in selecting data analyses to perform.
  • Superior Energy Performance Measurement and Verification Protocol for Industry: This document provides the procedures and calculations necessary to demonstrate the required energy performance improvement in a facility for the Superior Energy Performance program.

Other Resources:

  • ENERGY STAR Guidelines for Energy Management
    • Step 5 Implement Action Plan
    • Step 6 Document Results and Evaluate Progress
  • eGuide for ISO 50001: DOE’s eGuide to ISO 50001 is a toolkit designed to help organizations implement an energy management system through an organized, step-by-step process:
    • Step 6 Check the system
    • Step 6.1 Monitor, measure and analyze key characteristics

Once the data have been analyzed, it is important to communicate the results in a manner appropriate to the audience. The information needed by facility managers versus financial decision-makers will likely take different forms. It is important to understand the common language and metrics used for decision-making and implementation by the target audience. Portfolio Manager scores are one commonly used and widely understood metric for communicating results. It is also helpful to incorporate results into existing reports so data-based decision-making is integrated with current practices.

Other Resources:

  • International Facility Management Association’s How-To Guide for Portfolio Manager: Page 15 (the scoring section) of the guide explains the ENERGY STAR score and eligibility requirements for scoring and certification.

www.energy.gov

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