For Sprint, communications is core to climate resilience

October 23, 2014 by  
Filed under Business, Eco, Green

Comments Off on For Sprint, communications is core to climate resilience

For Sprint, communications is core to climate resilience Ann Goodman 8:45am Featured Image:  In what surely is a glaring understatement, Tanya Jones, manager of Sprint Corp.’s vital Emergency Response Team Operations, observed, “We learned quite a bit from Hurricane Sandy .” Indeed, Sprint, like all telecommunications carriers, lost cell sites on the northeastern seaboard and in New York City in the 2012 superstorm, which hurt its cellular operations. Fortunately, Sprint’s ERT was able to provide critical communications services to various first responders and emergency agencies using vehicles such as COWS (Cell On Wheels) and COLTS (Cell on Light Trucks), including those near the World Trade Center in New York, where the vehicles were parked right in front of the Freedom Tower, after police blocked it off for the Sprint workers. Among the key learnings from the debacle, said Jones: How better to rebuild; where better to stage; how better to “future-proof our technology to ensure our equipment is upgraded and our personnel equipped” for disaster. Her team of disaster emergency workers in multiple U.S. locations, including Dallas and Sterling, Va., is at the center — and on the front lines — of Sprint’s emerging approach to climate resilience. Having overseen the company’s disaster response for 10 years and found herself on the spot during 2,500 events — from hurricanes to fires to tornados to floods — her interpretation of such events is telling: “While a disaster is a disaster, I subscribe to the theory that the climate is changing weather patterns. You see more forest fires in the west and more hurricanes; you see increased water and air temperatures and storm activities; and there’s been an uptick in severity of storms,” Jones said. A communications approach to resilience Jones’ thoughts on disaster and climate echo the observation of Sprint’s director of corporate responsibility and sustainability, Amy Hargroves , who heads the company’s approach to climate resilience: “The same risks exist for climate-related events as for other disasters, but there’s a greater range of events and more of them.” Of acute importance, Hargroves noted: “In our field, as a communications company, disaster resilience has to be core to our business, because there’s so much dependence nationally on communications.” Indeed, while now majority owned by Japanese parent Softbank, Sprint’s network is United States-centric, serving federal, state and local governments as well as emergency responders — and, of course, the company’s 50 million-plus business and individual customers. Because emergency response is at the core of Sprint’s resilience approach, the company is always at the cutting edge of communications technology: “LTE, high-speed data, 4G, emergency response — we can provide that now, but most of what we do is make sure we’re on top of technology, because it’s not if but when a disaster will happen,” Jones explained. Keeping its emergency response team up to date with special equipment and mobile communications — as well as learning from each disaster — is only one part of Sprint’s four-pronged approach to implementing climate resilience, a business priority of Hargroves’ sustainability team, which has won the company a number of accolades, including the recent Compass Intelligence Eco-Focus and EPA Climate Leadership awards. Other priorities in Sprint’s resilience approach include: • Frequent assessments of the company’s network risks. • Improving backup power with less carbon-intensive sources, including research on hydrogen-fuel cells, in part with the Department of Energy. • Reviewing lessons learned to find new business opportunities, including those related to customer offerings. Overarching goals include reducing the company’s greenhouse gas emissions and electricity use by 20 percent by 2017 from 10 years earlier and ensuring 90 percent of its supply chain meets Sprint’s environmental and social criteria. The goals are complementary, particularly given Sprint’s massive network overhaul, at a cost of nearly $5 billion over three years, now coming to an end. That renewal has allowed Sprint to achieve its 2017 GHG reduction goal and come within 1 percent of its electricity reduction goal. Sprint provided free guidance on greenhouse gas measurement, reporting and reduction strategies to its top suppliers, including those involved in the network overhaul. Network risks: cell sites, signaling, fleets, response prioritization To ensure the network stays up to date — and up and running — in case of disaster, the company runs quarterly risk assessments. And Sprint expects more extreme events. On planning for potential climate risks, Hargraves noted that since Sandy, “it’s not so much that we’ve done anything new, but that there’s increased risk recognized through insurance [coverage] and assessment. That’s how we adjust and plan.” Fleets: Network risks also include the company’s fleet of vehicles for a range of conditions that could affect the cell sites, the most vulnerable part of the network. Fortunately, Hargroves noted, insurance companies have been building climate risk into their corporate risk models, assessing the level and nature of risk per site. With that information, Sprint can determine which sites may be most vulnerable and potential candidates for relocation. “We look at 500-year flood levels when we build our sites,” she said. Cell sites: With some 55,000 cell sites across the country, Sprint has a lot to keep track of. The signal from the site must be accessible in order for wireless customers to complete calls. Cell site traffic is aggregated at over 100 major satellite switching sites that allow calls to be terminated between various wireless and wire-line networks. Much of the IP-based (Internet Protocol) control functionality is handled by some 30 Core sites that act as traffic directors for voice and data services. “Networks are complicated beasts, and risk varies according to the site,” said Hargroves. “But the most important parts to protect are the switch sites, mainly because they aggregate traffic from thousands of cell sites. A single switch outage can isolate a complete market, leaving customers without critical wireless services over a large geographical area.” Emergency response: Of rising importance to the company’s resilience plan, said Hargroves, is the sort of emergency response to disasters that Jones manages. “We anticipate greater demand for the services of our Emergency Response Team because of the increase in the number of disruptive events,” Hargroves said. Essential to the response is the specialized mobile equipment, such as mobile communications centers, including COWs and  COLTs . These are whole vans or trailers especially useful in places that are hard to access. “Demand for COWs and COLTs has increased over the past several years, so our fleet has been [growing] and is expected to continue to grow in response,” she explained. A big part of emergency response is sequencing and prioritization: That entails determining who is “in charge” of disaster management (from a government perspective), which communications capabilities are intact and which are needed — and then developing a prioritized list of communications services and infrastructure that the company will provide. Sprint may send out its ERT to work with government and provide critical communications services initially for the first responders — government personnel, military, FEMA, Red Cross — to enable them to communicate, especially if a lot of infrastructure, such as cell site towers, signal repeaters or switching centers, has been disabled. The Sprint ERT always works with local government, including sheriffs and firefighters. Next in line are customers. Risk, site planning and backup power: response to storms, fires, flooding While Sprint always has had backup power initiatives, those have expanded throughout the United States over the past few years — as has the need for backup, which has risen, along with the frequency of disasters. “Provision of backup power is very much motivated by both natural and manmade disasters,” said John Holmes, who, as Sprint’s manager of network planning, is responsible for the company’s strategic planning efforts involving backup power, energy efficiency and sustainability for the company’s network. The need for backup power varies by region. “In the eastern and southern coastal regions, hurricanes and tropical storms can cause widespread damage,” he said. “In the Midwest and upper Midwest, ice storms can result in widespread outages. “Wildfires can be a problem anywhere there’s a combination of very dry weather and a lot of combustible ground or tree cover. As a general rule, they are more frequent out west. Places like California or the Pacific Northwest are susceptible to earthquakes. “Also, don’t count out tornadoes. Heavy rainfall can result in flooding, and many times that will occur downstream of where the majority of the rainfall occurred.” Sometimes the power stays on, but Sprint “can still have widespread outages, if, say, a major backbone fiber carrying multiple backhaul circuits (which connect the BTS equipment to the switches) is cut,” Holmes pointed out. “That would prevent calls from being completed … and is often manifested to the wireless subscriber as a fast busy signal.” What’s more, Hargroves added, the question of where to build cell sites has been complicated in recent years by the increase in frequency and severity of storms, as well as the availability of energy and water sources. “A few years ago, we studied the impact of climate change on water scarcity and cost in the U.S. The results were shared with the C-suite and operational teams so they could use it as input for site planning. For instance, if you need a big building, you should expect it to have a water chilling system, which is a big driver of water use. If you know where water will be scarcer, and thus more expensive, you should avoid building in those areas,” Hargroves explained. In 2013, water cost the company a mere $1.2 million, compared with $300 million for energy, “so it’s a far lower economic priority,” she said. “However, given the importance of water globally, it would be foolish not to consider drought forecasts in your site-planning process.” By contrast, Sprint has a strong economic incentive to reduce its energy usage, which is primarily electric. The company has cut its internal electricity use by 22 percent since 2007 and reduced its electricity costs by $87 million annually. Including Clearwire, acquired — along with its emissions output — in 2013, Sprint’s electricity costs are still down by 19 percent. Power backup and hydrogen fuel cells When disaster strikes, electrical power from traditional sources is likely to go down, as recent climate-related events, including Superstorm Sandy, have shown. That’s why backup power is essential for telecommunications providers such as Sprint. A backup plan is needed for all critical components in the network. Because Sprint is committed to lowering carbon emissions, the company looks to cleaner backup power sources. “Our second priority for carbon reduction is back-up power, which is a leading contributor to Sprint’s Scope 1, or direct, emissions,” said Hargroves. “Scope 1 emissions represent only 3.5 percent of our aggregate Scope 1 and 2 emissions. Within the 3.5 percent, 10 percent is emissions from back-up power sources, such as diesel fuel and propane. “Sprint includes its Scope 1 emissions in its goal to absolutely reduce GHG emissions by 20 percent by 2017, and in fact, has reduced them by more than 41 percent so far. Increasing our use of hydrogen fuel cells and propane — and decreasing use of diesel generators — as backup power sources at cell sites has contributed to this success.” Hargroves noted that Sprint’s fleet, with 1,000 vehicles, has a substantially smaller GHG footprint than the fleets of its direct competitors, which have 40,000 or more vehicles. “When we talk about network resiliency, we mean the ability of the network to maintain power and functionality, particularly at the switching and cell site level,” she said. “There are multiple lines of defense, the first of which is batteries. Since we have the greatest dependency on batteries, much of our focus is on reducing the environmental impact and duration of use of our network batteries. We have partnered with the National Renewable Energy Lab and the Department of Energy on battery technology, which is so critical for a communications company.” The second line of defense is using both a diesel generator and natural gas feeds, even propane and methanol, to access multiple core electricity streams in a single place to provide backup power. While solar and wind power are sparsely used where possible, neither technology is practical, given risks (when wind is strong, a disaster could be in the making), lack of continuous availability of energy and cost-benefit balance. Sprint is maximizing its use of hydrogen fuel cells in part through work with the DOE, whose $7.3 million grant in 2009 has supported the company’s development and deployment of 260 additional fuel cells to support its backup power systems, network planning manager Holmes said. The innovative fuel cells use an on-site, refillable, medium-pressure hydrogen storage system, which has eliminated bottle swaps, required in earlier generations of the technology, while boosting the standby runtime of the cells to parity with that of other backup solutions such as diesel generators. The company’s 500-plus hydrogen fuel cells help Sprint ensure that its Scope 1 emissions related to back-up power stay low despite significant increases in network resilience, achieved via more sites with longer back-up power. Customers and business opportunity Perhaps the biggest business opportunity in climate resilience for the company is on the consumer side of the business, said Hargroves. “We’re trying to identify additional services we can provide to help customers” understand and prepare for potentially disruptive events. So far, most of the company’s focus has been on the “survivability of network infrastructure,” Hargroves said. The company’s Japanese parent Softbank has exceptional experience in this arena, gained during the Great East Japan earthquake of March 2011. Explained Hargroves: “Up to now, the main things we’ve done involve the survivability of our services, directly helping first responders, supporting customers on billing, and managing our service, versus providing information that can help them manage through the disaster — things like how to extend the life of your phone battery and recharge with limited electricity sources available, which is different from relaying information during a disaster, as people become more and more dependent on cell service.” But the company imagines the opportunity to change that. Sprint may have a competitive advantage in consumer engagement, if it can leverage some other assets of Softbank such as Yahoo (in Japan) and provide disaster-related content on its customers’ phones. She added: “We do think there are some interesting opportunities with emergency alert systems and disaster content support. So if someone can figure out a good way to do it, this is a terrific opportunity.” Top image of Sprint store in New York City by  Northfoto  via Shutterstock Topics:  Climate Computers Fleets

Read more from the original source:
For Sprint, communications is core to climate resilience

Denis Hayes: From Earth Day to the Bullitt Center

October 23, 2014 by  
Filed under Business, Eco, Green

Comments Off on Denis Hayes: From Earth Day to the Bullitt Center

Denis Hayes: From Earth Day to the Bullitt Center Mike Hower 7:30am Featured Image:  Catch Denis Hayes in person at VERGE SF 2014, Oct. 27-30 . The Seattle Bullitt Center has been touted as one of the world’s greenest commercial buildings. Spearheaded by the Bullitt Foundation, which offers grants to organizations working to advance environmental initiatives in the Pacific Northwest, the six-story, 50,000-square-foot building was completed last year and is undergoing certification for the Living Building Challenge — a standard more ambitious than LEED. To be declared a Living Building, a structure must be self-sufficient for energy and water for a full year and meet standards for the materials used and the indoor environment. The standard also requires that the building helps restore the natural environment. The Bullitt Center is the brainchild of Denis Hayes, president of the Bullitt Foundation, who has been at the forefront of the sustainability movement since serving as national coordinator of the first Earth Day in 1970. Since then, he has fought countless legislative, cultural and courtroom battles and authored several books and articles aimed at advancing the interests of human, urban and industrial ecology. Next week at VERGE SF, Hayes will showcase the Bullitt Center and how it embodies the concept of human, urban and industrial ecology. I recently had a chance to chat with Hayes to learn more about the project ahead of his presentation. Mike Hower: Can you please explain how the Bullitt Center is a ‘living building’? Denis Hayes: The Bullitt Center is an example of biomimicry in the built environment. It more or less functions like an organism. For example, it has a nervous system that senses what the temperature is outside, what the temperature is inside, whether the wind is blowing, what direction it’s blowing from, how fast it’s blowing, whether or not it’s raining, how intense the sunlight is and how much carbon dioxide is built up inside. Just like your autonomic nervous system, the computer absorbs all of this information and plugs it into a few fairly simple algorithms that determine whether the external venetian blinds should be up or should be down and — if down — whether they should be shut or angled upward, whether they are trying to keep heat out of the building or merely reflect light further into the building and eliminate glare. The same system determines whether the windows should be open or shut just like the pores on your body. Like an ecosystem, the Center gets all of its energy (and in fact, it’s net energy positive) from sunbeams that fall on its roof in Seattle. It is a six-story office building that last year produced 50 percent more electricity than it used. It captures rainwater that falls on the roof, filters it, uses it for all purposes, including potable drinking water. It’s the first commercial building in America that treats gray water and re-injects it right into the soil and the water table, right inside a city. Hower: What other sustainable features does the Bullitt Center boast? Hayes: We identified 362 materials that are harmful for people and other living things that are common in buildings — things that are carcinogenic or mutagenic or endocrine disrupting or something — and we kept them all out of the building. The facility has composting toilets and uses a flush toilet system that is foaming, so that in a typical flush, it uses less than a half a cup of water. All of the waste is composted right on site. It’s the first office building in the United States to be project-certified by the Forest Stewardship Council , which is to say every piece of wood in the building is FSC-certified, so it’s from a forest that has much larger buffers around its drains, doesn’t cut any old growth, has longer rotation times, doesn’t use herbicides and should be able to produce wood 1,000, 2,000 years from now, unlike a typical industrial forest model. Hower: A key objective of VERGE SF is creating a dialogue between cities and tech companies to help scale solutions that ultimately will help them achieve their sustainability and resilience goals. What do you personally believe it means for a city to be resilient? Hayes: It means that the city is redesigning itself with an awareness that the world around it is now inevitably changing and will continue to do so no matter what we do for several more decades into the future, as a consequence of changes that already have been made in the atmosphere. A resilient city is able to accommodate those — whether it’s floods or droughts or hurricanes or whatever the changing climate throws at it. Resilience in human ecosystems, just as in natural ecosystems, is a measure of the flexibility to endure and prosper, regardless of what challenges arise. Hower: How do you believe cities can develop successful public-private partnerships and create a marketplace for things such as smart city products and services? Hayes: There are several things within the city that historically have been and continue to be public sector responsibilities, such as roads, transit, sewage systems, water mains. There are opportunities to privatize some of that, but it’s not clear that there is much advantage in doing so, at least in American cities today. But there are a bunch of other places in the built environment , and especially in buildings and cultural institutions that give life and dynamism to a city, where the private sector, if not influenced by incentives and disincentives, will be driven by market forces to something suboptimal. The typical developer, to be financially successful, spends no more than is absolutely necessary to produce a building that will attract the tenants that it’s designed to attract. He can then fully lease up the building and flip it, ideally within a year or two, to an insurance company or real estate investment trust. The developer moves on to the next project — so it’s about minimizing a building’s initial cost, without regard to its lifetime operating costs. That’s why, for example, cities have energy codes and fire codes, and why America banned lead paint. We have an enormous amount of wood in our building; the ceilings are all wood and the substructures of the floor underneath it and the external beams are all wood. It’s the first wood beam construction in Seattle for a six-story building since 1927. We paid 10 percent more for all of that wood because it is all from FSC forests. If you’re a tenant and you look at it, what you see is simply wood. If you’re a structural engineer looking for its characteristics, it has the characteristics of wood. All of the additional benefits accrue to the forests where it came from and to the workers in those forests; none of them adhere to the developer or the tenants in the building. Yet if we want to continue to have forests 1,000 years from now, we need to have something that incentivizes that. So you can have governments that encourage developers to use wood that is sustainably harvested, either by providing them a swifter path through the regulatory maze or providing them a little bit of additional space on the lot, transferable development rights, some kind of preferential treatment in real estate taxes. There are all kinds of tools available to cities, and they use them for a variety of good purposes. They use them principally for low income housing, but also to bring parks and recreational space into underserved neighborhoods. Some cities insist upon urban art. Only rarely do cities use their tools to promote resiliency and sustainability. But the same tools should be used for those purposes, in a partnership where the private sector can say that “we would love to do this but we can’t make it pencil-out unless we have this incentive.” As long as everyone is honest, it can be a pretty productive partnership. Top image of Denis Hayes by David Hiller. Topics:  Architecture & Design Biomimicry Standards & Certification

View original here:
Denis Hayes: From Earth Day to the Bullitt Center

Stericycle, DOT and CDC help hospitals prepare for Ebola waste

October 23, 2014 by  
Filed under Business, Eco, Green

Comments Off on Stericycle, DOT and CDC help hospitals prepare for Ebola waste

Stericycle, DOT and CDC help hospitals prepare for Ebola waste Janet Howard 7:15am Featured Image:  How do hospitals prepare for the potential Ebola virus waste stream with science-based decision-making and start off with a best management approach to this waste? While this is an emerging topic with evolving practices, the most important resource is The Center for Disease Control and Prevention Web page for interim guidance on the best approaches for protective equipment, segregation, storage, packaging and removal of this Category A infectious material. While this waste stream may not become an issue for most hospitals, preparedness is key. Special process for waste disposal Stericycle , a member of Practice Greenhealth , began working with the CDC and the Department of Transportation in August when the first Ebola case entered the United States. As a result of the collaboration, DOT released a special permit process along with requirements for proper segregation, containment, packaging and removal of this Category A infectious waste to address the needs of Dallas Presbyterian Hospital while maintaining overall public safety. Stericycle, DOT and CDC continue to work together to evaluate the process and prepare to address additional Ebola-related waste needs. At present, each incident is addressed on a case-by-case basis. To prepare for waste disposal, hospital staffers should work with their waste hauler for specific packaging procedures and ensure appropriate supplies are on-hand in the hospital and that their hauler is prepared to manage waste removal and disposal. Additional special permits likely will be required from the Department of Transportation to remove the Category A infections waste (PDF) , a different category from traditional infectious material (Category B). The CDC reports that Ebola requires standard, contact and droplet precautions. It is spread by contact with one or more of the following: infected animals; blood or body fluids (including urine, saliva, sweat, feces, vomit, breast milk and semen) of a person sick with Ebola or objects (such as needles and syringes) contaminated with the virus. Ebola is not spread through the air or by water, or in general, by food. However, in Africa, Ebola may be spread as a result of handling bush meat (wild animals hunted for food) and contact with infected bats. There is no evidence that mosquitos or other insects can transmit Ebola virus. Only mammals (humans, bats, monkeys and apes) have shown the ability to become infected with and spread Ebola virus. According to the CDC site providing guidance for clinicians, the Ebola virus enters the patient through mucous membranes, breaks in the skin or other parenteral means. It infects many cell types, including monocytes, macrophages, dendritic cells, endothelial cells, fibroblasts, hepatocytes, adrenal cortical cells and epithelial cells. The incubation period may be related to the infection route (six days for injection versus 10 days for contact). Ebola virus migrates from the initial infection site to regional lymph nodes and subsequently to the liver, spleen and adrenal gland. The CDC reports on the details regarding personal protective equipment. For waste collection, environmental services staff are recommended to wear, at a minimum, disposable gloves, gown (fluid resistant/ impermeable), eye protection (goggles or face shield) and face mask to protect against direct skin and mucous membrane exposure of cleaning chemicals, contamination and splashes or spatters during environmental cleaning and disinfection activities. Additional barriers (leg covers, shoe covers) should be used as needed. If reusable heavy-duty gloves are used for cleaning and disinfecting, they should be disinfected and kept in the room or anteroom. Be sure staff is instructed in the proper use of personal protective equipment including safe removal to prevent contaminating themselves or others in the process, and that contaminated equipment is disposed of appropriately (included in the Category A waste collection). Any mattresses or pillows that are not covered with an impermeable plastic covering should be treated as Category A infectious waste, as well. Check the CDC website frequently for any updates. The CDC also recommends that any room with a patient on isolation for the Ebola virus should be free of cloth materials such as carpeting, curtains or furniture. EPA-registered hospital disinfectants with a label claim for a non-enveloped virus shall be used on all surfaces and all waste should be collected as Category A regulated medical waste, including reusable linens. Sustainability and infection control Sustainability teams , led by infection control, work together to educate new and existing employees, develop posters, strategically place waste bins and monitor waste segregation practices. According to the Practice Greenhealth Sustainability Benchmark Report , award-winning hospitals average a 9 percent regulated medical waste generation with top performers at a 2.3 percent compared to total waste. With waste fees at least five times more than for solid waste, it’s worth the effort, saving anywhere from tens of thousands to hundreds of thousands of dollars per year in waste removal and treatment fees. Top image of biohazard symbol by Maxal Tamor via Shutterstock. This article first appeared at CSRwire . Topics:  Virtualization Health Care

Read the original:
Stericycle, DOT and CDC help hospitals prepare for Ebola waste

9 ways sustainability drives profit

October 23, 2014 by  
Filed under Business, Eco, Green

Comments Off on 9 ways sustainability drives profit

9 ways sustainability drives profit Chris Hummel 6:00am Featured Image:  Today most executives recognize that sustainability must be integrated into their organization’s core strategy — not to say that they necessarily understand why. In fact, too many are still content wearing some kind of sustainability PR badge just because the “About Us” section of their website gives sustainability a one-paragraph mention. For their sake and ours, here are nine reasons why all of us might want to redefine how we approach sustainability. 1. Lower costs Sustainability drives profitability. For example, Intercontinental Hotels says it is saving $30,000 a month at two San Francisco hotels by micro-managing peak power. Watch for companies using the uninterrupted power supplies in their data centers to do the same thing. They might even rent spare capacity on their UPS to utilities — UPS as a profit center, anyone? 2. Increased revenue CBRE , the world’s largest commercial real estate services firm, surveyed San Diego and found that green buildings commanded 18 percent higher rents ($2.42 per square foot versus $2.02 per square foot) and higher occupancy rates (88.3 percent vs. 84.3 percent) than conventional buildings. Other surveys show similar results . 3. Higher capital value and ROI In real estate, higher rents and lower turnover translate directly into higher capital values (PDF) that can average 10.9 percent for new buildings and 6.9 percent for older ones. It also helps you control your utility bill. 4. Leveraging broadband investments As part of a smart-grid upgrade to make its electrical system more efficient, municipal utility EPB installed a 1-gigabit fiber optic network that reaches more than 172,000 homes and businesses in Chattanooga, Tenn . By building one network for both grid and Internet traffic, EPB was able to leverage its investments and construction costs, and provide local residents along with businesses such as Volkswagen and Amazon with some of the fastest Internet service in the country. This project will become a model for many communities. 5. Brand Sustainable brands outperform their peers by 120 percent . Seventy-five percent of retailers say sustainability has strengthened or mitigated their brand. I have seen several private studies by the top branding agencies in the world that say similar things. 6. Customer engagement Ask anyone who has retrofitted their restaurant or store with LED lighting : patrons linger longer. Anecdotal evidence is also being gathered about higher sell-through rates (let alone more savings, of course, as solid-state lighting and lighting networking can cut light power consumption by 70 to 90 percent .) 7. Recruiting Workers younger than 25 rank an employer’s reputation as an important draw for a job. “It is one of the soft things that many companies don’t understand but it is crucial in the retention and morale of employees,” Larry Vertal of AMD has noted. “It is amazing how the highest talented people will grill you about your sustainability practices in job interviews.” 8. Health and wellness Workplace and building design can have a direct impact on motivation, employee satisfaction and productivity . If you’re not freezing or complaining about the heat, you’ll get more done. This benefit may be tough to quantify, but the compelling anecdotes are growing. Hewlett-Packard found that lighting controls can reduce migraines . Data also shows that respiratory problems drop in retrofitted buildings. 9. Data center performance With the trend towards cloud everything, data center managers are some of the biggest believers in sustainability as electricity can consume up to 30 percent of the operating budget. Google claims it has saved over $1 billion through its energy efficiency measures in its data centers. What kinds of measures can be taken in a data center environment? Designing for energy efficiency can free up floor space , reducing real estate costs. Lowering wasted heat extends equipment lifetime and reduces failures. Even innovations such as flash memory storage systems — one of the more interesting new ways to reduce power consumption — let companies get more work done with fewer machines. The list could go on. What are some results and unexpected benefits you’ve seen? And how do you think we can use hard data to move the ball forward? Top image by  Patryk Kosmider  via Shutterstock. Topics:  Data Centers Emissions Reduction Renewable Energy Energy Efficiency Reporting Architecture & Design Smart Buildings Corporate Strategy

See the original post:
9 ways sustainability drives profit

Bad Behavior has blocked 2853 access attempts in the last 7 days.