Our 15th chronicle of transparency, accountability, and business performance By The Editors
Corporate Responsibility Magazine is pleased to present our 15th annual list of the 100 Best Corporate Citizens. This year’s 100 Best List began with our research team documenting 298 data points of disclosure and performance measurements for the entire Russell 1000. The data was harvested from publicly available information and each company was ranked in seven categories:
Environment
Climate change
Employee relations
Human rights
Corporate governance
Financial performance
Philanthropy.
More details on our methodology follow the List.
We offer the companies named to the 2014 100 Best List our congratulations—for delivering on their commitments to transparency and accountability in highly competitive industries.
As usual, we’ve had some turnover; 23 companies are on the 2014 list that were not on the 2013 list. That’s slightly less turnover than last year and in the normal range we’ve experienced since beginning these rankings 15 years ago. We welcome the newcomers.
There are also some familiar names: 17 companies have been on the list every year since 2008, and that’s no easy trick— one of our key measurements is financial performance, meaning those companies consistently performed good while performing well. Two other interesting statistics:
33 companies jumped an average of 20 ranks, and 42 companies dropped an average of 17 ranks. “CR Magazine’s 100 Best Corporate Citizens is the only ranking that doesn’t rely on self-reporting,” says Elliot Clark, CEO of SharedXpertise, publisher of CR Magazine. “Each year, we measure the most transparent companies who report on their responsible practices. We congratulate those honored on this year’s 100 Best for their commitment to corporate responsibility.”
Way back in 2000 we had the fear of Y2K. Last year, every time I turned on the TV I heard the two words,Mayan calendar. This year, it’s all about bracing for the zombie apocalypse. All this disaster preparedness got me thinking, well I don’t want to be the one left in the dust, you know, just in case. No matter what really ends up happening, there is some comfort in honing down those survival skills and stocking up on supplies. If you have a blackout see how a tub of Crisco can light up your room for days. Stay in contact with loved ones by charging up your cell phone with the sun and laundry lint will come in very handy for warming up by a fire. Take a sec to jot down these 25 DIYs to Survive the (Zombie) Apocalypse, because you never know what tomorrow brings (muahaha!) …
updated 8:56 AM EDT, Tue April 22, 2014Additionally, nine planned new nuclear reactors were axed in 2013, an indication of how rapidly things have changed. Just five years ago, utilities applied for licenses to construct at least 27 new reactors. By the close of 2013, only four of those reactor projects were still alive.
Worldwide, in 2013, solar power installations grew by 38 gigawatts, from 96 to 134. According to the World Nuclear Industry Status Report 2013, in the preceding year, 45 gigawatts of wind and 32 gigawatts of solar power were installed worldwide, compared with a net addition of just 1.2 gigawatts of nuclear.
Hastening this energy revolution is the nuclear industry's Achilles heel: an aging, dangerous reactor fleet that is increasingly uncompetitive and new reactor designs that are too expensive to build.
Last year, utilities permanently shuttered five more reactors, lowering the number of operating units in the United States to fewer than 100 for the first time in two decades. Utility owners canceled at least nine planned upgrades of existing reactors, deeming the investments no longer economically justifiable.
Sunlight from mirrors is reflected onto a solar receiver and boiler. Water is heated to produce steam to power turbines.
Ironically, Warren Buffett, arguably the world's greatest capitalist, has emerged as the poster child for this dramatic shift. In June 2013, Buffett'sMidAmerican utility threw in the towel after a failed three-year legislative battle to require Iowa electric customers to foot the bill for the design and construction of a prototype small modular reactor. Mainstream groups like AARP vigorously opposed that fiscally imprudent investment. Earlier, MidAmerican canceled another proposed reactor in Idaho on the grounds it was not worth the money.
What's significant about this about-face on nuclear by the highly regarded "Oracle of Omaha" is that Buffett instead decided to install656 large wind turbines at a cost of $1.9 billion in Iowa, and has gone "all-in" with multibillion dollar bets on utility-scale wind and solar power and other renewable energy facilities throughout the West.
In his annual State of the Union address in January, President Obama highlighted this auspicious trend by praising solar's rapid growth, announcing that, "every four minutes, another American home or business goes solar. ..."
While nuclear has flat-lined in the marketplace, statistics demonstrating solar's growth actually underestimate the total contribution to our country's electrical supply from solar. This is because nonutility and small-scale -- residential and commercial rooftop -- photovoltaic systems don't show up as electric generation in the industry's statistics. The utilities that compile generation statistics view rooftop solar electricity, used on site, not as power generation but as a reduction in demand! If it's not sold by a utility, it's not "real" power.
In fact, one of the authors built a six-story office building in Seattlethat produced more electricity on its roof last year than it used. If this can be done in Seattle, the cloudiest major city in the contiguous 48 states, it can be done anywhere.
In 2013, America, and the world, crossed the threshold to a sustainable, ultimately nonnuclear, carbon-free energy future. While much remains to be done and there is a long way to go, this Earth Day is especially meaningful and inspiring for those of us who have spent our careers pursuing this essential goal. We can see the clear outline of a sustainable energy future that our children, our economy and our planet can live with.
Our Office Team at Monolith is taking on a green initiative for Earth Day!
“You cannot get through a single day without having an impact on the world around you. What you do makes a difference, and you have to decide what kind of difference you want to make.” —Jane Goodall
The number of people employed by the solar industry: 143,000: Happy Earth Day
New Jobs Report Shows Solar Continuing Record Growth
Monday, January 27, 2014
WASHINGTON, D.C. – With today’s release of The Solar Foundation’s National Solar Jobs Census, Rhone Resch, president and CEO of the Solar Energy Industries Association (SEIA), issued the following statement:
“When it comes to the U.S. economy, solar is continuing to create tens of thousands of new jobs across the country. The Solar Foundation's latest national jobs census confirms that 2013 was a record-shattering year, with the solar industry creating more than 10 new jobs every hour of every work day throughout the year.
“Added together, solar’s final box score for 2013 is impressive by any measurement: Nearly 143,000 American jobs; 400,000 installed solar systems nationwide; an estimated 13,000 megawatts (MW) of solar capacity, generating enough clean, reliable and affordable electricity to power more than 2 million homes; and ten of billions of dollars pumped into the U.S. economy. That's a remarkable return on investment for the smart public policies, including the solar Investment Tax Credit (ITC), 1603 Treasury Program and Net Energy Metering (NEM), that are helping to drive our country's deployment of solar across the United States, making solar the fastest-growing source of renewable energy nationwide.
“It’s also a big reason why America supports solar – with 9 out of 10 voters wanting to see more solar development nationwide, according to a Hart Research poll. And here’s the best news of all – 2014 may be even better. SEIA congratulates the thousands of American companies that are continuing to make solar energy one of the fastest-growing industries in the U.S., and the hundreds of thousands of Americans who are choosing to #gosolar.”
We want to help our solar partners save some moolah - here is a list of the best tips that we have seen for those looking for some green.
1. Install a programmable thermostat (and use it!)
Whatever you buy, remember to program it to save you money- heating or cooling less when you are not generally home or are sleeping.
2. Replace air filters
3. LED or CFL lightbulbs
Although it is tempting to go for the nice & cheap lightbulbs- these babies will save you lots of money over time. According to one source, changing to CFL bulbs can take the lighting portion of your energy bill from $264 / year to $66 / year. If you switch to LED, the cost goes to $26 / year. Woah (remember this is for an average light user- whatever that means).
4. Energy Star Appliances
Lucky for us, the only appliance that we need to buy is a washer & dryer. You may have to pay more upfront for Energy Star appliances but you will save big in the long run.
5. Caulk & Insulate
This may seem silly, but a lot of houses dont have enough insulation or properly caulked windows. Make sure to check all of your seems and add insulation where you can. It will help you be cool in the summer & cozy in the winter.
MANILA, Philippines—The Department of Energy (DOE) on Friday urged consumers to start power-saving practices, as the country faces periods of tight energy supply and volatile power rates.
The first step to a more energy-efficient home or workplace is buying products guided by their energy label, the DOE said.
Yellow energy labels are mandatory on home air conditioners (except inverter type), home refrigerators (size range: 0.15-0.24 cubic meters, or 5-8 cubic feet), compact fluorescent lamps (self-ballasted), linear fluorescent lamps, circular fluorescent lamps and ballasts.
Simply, higher energy efficiency rating means lower energy consumption.
For fluorescent lamps, the energy label indicates the light output in lumens, power consumption, lamp efficacy and average life.
More lumens mean more light output. The higher the efficacy rating, the lower the energy consumption.
Those considering buying air-conditioning units to beat the summer heat will do well to look for a high energy efficiency ratio (EER), the DOE said.
EER refers to the cooling efficiency of the air conditioner. For refrigerators and freezers, the yellow energy guide bears the energy efficiency factor of the unit.
The DOE, however, warned the public against false claims of some companies that their products, when attached to electrical appliances or lighting products, can reduce energy consumption. Riza T. Olchondra
1.Orient the house for energy efficiency.Before you even think about Energy Star appliances, recycled-content products, or whiz-bang technologies, the first thing anyone building a house needs to do is position the structure for maximum benefit. It is, perhaps, the most important decision you’ll make. This is general knowledge but still so few builders actually do it—or are unable because of how subdivisions are typically planned.
Why: The right site orientation is where energy savings begin. In addition to beneficial daylight, a properly sited house will avoid solar heat gain and require less mechanical cooling in the summer. It may also take advantage of the prevailing breezes for free cooling. “East west [orientation] is best,” says architect Ed Binkley, of Ed Binkley Design in Oviedo, Fla. The north side provides the best light, southern exposure is easy to control with shading, and the east and west should have less glass.
2.Place windows appropriately. Once the house is properly sited on the lot, the last thing you want to do is negate it with large windows in the wrong places. Let your geographical region and climate determine placement. ”If you want morning sunlight to spray across your breakfast table, your breakfast room window should face east,” Don Vandervort writes on his Websitewww.hometips.com. “Light from the south is bright and direct; solar houses are oriented to the south for maximum heat gain. South-facing windows are often located beneath eaves or roof overhangs to block the high, intense summer sun, but allow in the warmth of the lower winter sun.”
Why: The right window placement will mean the difference between unwanted heat gain and lack of cool, flattering daylight. Proper window placement will facilitate cross breezes and ventilation—provided the house was oriented correctly in the first place. Moreover, architect Erla Dögg Ingjaldsdóttir of Santa Monica, Calif.-based MINARC, says low window openings on a house let in cool air and high window placement allows hot air to escape.
3.Install a radiant barrier. Your house is sited properly and windows are in the right places, but now it’s time to keep out the sun’s heat. A radiant barrier installed on the roof deck or (in some cases, the attic floor) will help. A structural panel with a thin sheet of reflective material—usually aluminum—on one side, a radiant barrier is used as regular sheathing (with the reflective side down).
Why: In warm climates or hot climates, a radiant barrier helps reduce summer heat gain, allowing air conditioners to work less, thereby saving money. The U.S. Department of Energy's (DOE) Office of Energy Efficiency and Renewable Energy says a radiant barrier also can “reduce indoor heat losses through the ceiling in the winter.” Some manufacturers claim the products prevent up to 97% of the radiant heat in the panel from entering the attic.
4. Properly air-seal the structure. One of the most important factors in a house is preventing unwanted air infiltration. Builders can do this with an aggressive campaign to caulk all cracks and seal all pipes penetrating the building envelope, with diligent housewrap application, or with spray foam insulation or blow-in cellulose. “Number one with a bullet for us is rigorous air sealing,” says Jesse Thompson, with Kaplan Thompson Architects in Portland, Maine.
Why: According to DOE's Office of Energy Efficiency and Renewable Energy, preventing random air movement through building cavities helps prevent air leakage, which can account for 30% or more of a home's heating and cooling costs. Architect C. Joseph Vigil, president of VaST Architecture in Boulder, Colo., recommends “having a blower door test done and then based on the results insulating and caulking all gaps and cracks to minimize the amount of natural air changes per hour that occur.” Moreover, Thompson says his firm is “getting builders to commit to blower-door testing during construction, especially pre-insulation, when the walls are open and problems can be caught easily.” Air sealing also will increase the effectiveness of the insulation.
5.Insulate. Insulate. Insulate. Siding and roofing will protect the house from bulk rain, and sealing stops the air flow, but a properly insulated house will keep its inhabitants comfortable. “A good, tight, well-insulated shell is about 70% of the solution,” Binkley says.
Why: “To maintain comfort, the heat lost in the winter must be replaced by your heating system and the heat gained in the summer must be removed by your cooling system,” the DOE says. “Properly insulating your home will decrease this heat flow by providing an effective resistance to the flow of heat.” Still, the amount of insulation or R-value you'll need depends on your climate, type of heating and cooling system, and the section of the house you plan to insulate, according to the DOE. The type of insulation is a matter of preference. Some architects use foam because it (the closed-cell version) acts as a moisture barrier and air barrier and because it fills all nooks and crannies. Other pros use blow-in cellulose, while most builders stick with fiberglass batts. Either way, the concept is the same: the insulation must be installed properly to touch all six sides of the wall cavity. “Some types of insulation—such as foam board and dense-packed cellulose insulation—can be effective at reducing air flow as well as heat flow,”according to the government's Office of Energy Efficiency and Renewable Energy. “However, the most common type of insulation—fiberglass—does not stop air leakage. In older homes, dirty fiberglass insulation is a telltale sign of air movement (it collects dirt like a filter).
6.Remember the attic. It’s tempting to overlook this part of the house, but the attic is also an important part of an energy efficiency strategy. Simply put, “Properly insulating and air sealing your attic will help reduce your energy bills,” reminds the Office of Energy Efficiency and Renewable Energy.
Why: “The attic is critical,” says Robert Jordan, president of the insulation company Dr. Warm in Upton, Mass. “Hot air rises and wants to go higher and escape from the house. Doing the attic is most important.” If the attic is vented, make sure to seal all attic-to-home air leaks because most insulation does not stop airflow, DOE says. This may not be necessary if you’re using spray foam in an unvented attic.
Cost: About $3.50 per square foot for 9 inches of open-cell foam. Cheaper options are available.
7.Install a properly sized efficient furnace or boiler. The last thing you want to do after being diligent about the other energy efficiency strategies is blow it by installing an inefficient HVAC system. In 2006, DOE mandated that manufacturers cannot import or produce air conditioners with anything less than a 13 SEER. Shoot for ratings above that. Vigil adds that builders should avoid any mechanical system that is less than 90% efficient.
Why: Installing the most efficient system will result in direct saving because heating and cooling a house represents the costlier part of maintaining it.
8.Choose an efficient hot water system. In most houses, the refrigerator and the hot water tank are the two major appliances that are always on—always! In fact, water heating is the third-largest expense in the home after air conditioning and major appliances and accounts for 14% to 25% of a home’s operating costs.
Why: As of this year, EPA and DOE, issued criteria that water heaters must meet to obtain the Energy Star label. The agency says the standards are expected to save American consumers about $780 million in utility costs by the fifth year of the standard’s use. Though Energy Star covers a variety of tank types, different architects have their preference. Vigil prefers tankless systems that heat only when they’re needed, while Binkley prefers a solar system. Traditional storage tanks can also be efficient.
9. Choosefluorescent-friendly fixtures. The Energy Star program says lighting in the average U.S. home accounts for about 20% of its electric bill. Switching out an incandescent lamp for a medium-based compact fluorescent bulb (CFL) will help will save about $30 over its lifetime and pay for itself in about six months. But there is a better way: Use fixtures designed for pin-based fluorescent bulbs instead.
Why: Though medium-based CFLs use 75% less energy and lasts about 10 times longer than incandescent bulbs, there is a problem. “If they are put into incandescent fixtures they need to be left on for longer periods,” says Binkley. “Fluorescents are not made to be switched off and on for short periods, they will burn out fast.” Sea Gull Lighting says an Energy Star fixture that is designed for a pin-based fluorescent bulb not only looks better, but the quality of light and energy performance is better as well.
10.Install Energy Star appliances. No builder interested in efficiency should be installing anything less than Energy Star rated appliances. Period.
Why: Energy Star models exceed federal standards for energy and water use and are more efficient than older ones, thereby helping homeowners save money on their utility bills. Forget baseline models that meet the minimum standards and consult with www.energystar.gov for models that go beyond. For example, some dishwashers exceed government standards by 50%, while others beat them by 147%.
Our 15th chronicle of transparency, accountability, and business performance
