CHEYENNE, Wyoming >> There have been some changes over the last 20 years at the “Daddy of ‘em All.” Just ask barrel racer Sherry Cervi from Marana, Ariz.Cervi, who is a four-time world champion, won this rodeo 21 years ago in 1995. At that time the Women’s Professional Rodeo Association part of the competition was held as part of the night show and their entrance into the arena was from the south.That put the placement of the barrels in the opposite direction as well, but the actual size of …
Tags:#Microsoft#web 8 Best WordPress Hosting Solutions on the Market One key barrier to this sort of adoption is the fact that Page Hunt’s info will not likely be shared with non-Microsoft search players. Meanwhile Wikipedia content is shared freely as public domain information. It will be interesting to see if the Page Hunt community fleshes out in the same manner or if a less-proprietary search game will spring up in its place. Microsoft just launched Page Hunt, a game that presents web pages to players and asks that they guess key words to hunt them down. In the past, RWW has covered a number of search relevancy projects that incorporate human computational power including Semanti. But few projects have been presented to volunteers in such a fun and easy way. Once a game begins, players are presented with a web page and receive points to guess keywords for the pages in the top 5 results. Unveiled by Microsoft’s Chris Quirk and Raman Chandrasekar at the Association for Computing Machinery’s Special Interest Group on Informational Retrieval (SIGIR) Conference, the game is aimed at improving search algorithms and ranking. MIT’s Technology Review compares PageHunt to Luis von Ahn’s spam-fighting puzzles and image tagging games. Nevertheless, for initial volunteer buy-in, it may actually have closer ties to Wikipedia. While the projects seem very different, they actually share similar missions. Wikipedia is aimed at collecting and distributing educational content to global audiences. Meanwhile, Microsoft’s Page Hunt aims to increase the relevancy and speed at which information can be found. Very few projects offer the general public a chance to volunteer in improving the sum of human knowledge in such a significant way. Wikipedia volunteers are often fiercely devoted to curating their pages knowing that even the US Health Department is factoring the community into their outreach strategy. Page Hunt’s search relevancy game players may adopt a similar mentality. Related Posts A Web Developer’s New Best Friend is the AI Wai… dana oshiro Why Tech Companies Need Simpler Terms of Servic… Top Reasons to Go With Managed WordPress Hosting
Look at the picture of the wall on the right. Does it look fire-stopped to you? It passed inspection in New York, but when we tested it, these low-rise multi-unit residential homes were very leaky. If it were my home, I would like to make sure that my fire-stopping actually stops fire. A blower door test can verify what a visual inspection cannot, because a passing grade is a number, not an opinion.It is easy to imagine the next steps from here. One obvious step is to require blower door testing of apartments in larger residential buildings. It is also possible to look forward a decade to when compartmentalization of other major spaces — boiler rooms, trash rooms, and even separate leases in commercial buildings — is verified with a blower door.Who would not like to verify that a boiler room is isolated from the rest of a large building? A quick test with a blower door will do that. This is the direction the industry should go. Code-required blower door testingBlower door testing is a great verification tool, and it should be included in energy codes. The 2015 International Energy Conservation Code (IECC) calls for residential buildings to be tested with a blower door and verified as having an air leakage rate not exceeding 3-5 air changes per hour at 50 Pascals, depending on climate.A little while back, my home state of New York decided to adopt the IECC and its blower door testing requirements, but when I was at Steven Winter Associates I recommended some changes to the language. These recommendations were adapted and adopted into the New York State Energy Conservation Construction Code, and just recently were signed into law.I’ve recently submitted a proposal for change to the IECC based on the New York language. I’ll tell you why I think you should support that change. Sean Maxwell formerly worked as a senior energy consultant at Steven Winter Associates in Norwalk, Connecticut. He now lives in Australia. Defining an appropriate building code requirement for compartment testingThe language in our IECC proposal is largely aligned with language from ASHRAE 62.2-2013, LEED BD+C: Multifamily Midrise, and the EPA’s Energy Star Multifamily High Rise program, which recommend or require a maximum leakage rate of 0.30 cubic feet of leakage per minute at 50 Pascals per square foot of apartment envelope area (0.3 cfm50/sf), which includes the floors, ceilings, and interior and exterior walls of an apartment.Will this threshold be difficult to meet? I can tell you that a builder should not have trouble passing the test unless something really big is missed. What fails apartment tests are typically big mistakes: the drywall doesn’t go from floor to ceiling between compartments; there are big holes in the fire separations where plumbing and electrical pipes run through; service chases are not fire-stopped between floors like they should be. Steven Winter Associates maintains a database of multifamily blower door tests that it has conducted over the past five years in the course of certifying thousands of units of green and high-performance housing in New York State, and it shows that the threshold of 0.3 cfm50/sf is generally achievable. The graph at right shows the results of over 600 of these tests.In the database, 88% of units tested in the Steven Winter Associates portfolio meet this threshold. While most of the projects participated in some sort of utility program that required compartmentalization, and therefore are not fully representative of typical practice, it clearly shows that the threshold is within reach for builders that make an effort.Perhaps one of the main benefits of compartment testing is that for larger buildings, doing a series of smaller tests may end up saving money over a whole-building test. Using a hypothetical 50-unit building as an example, we estimated that it may cost less than half as much to test a building by compartment testing as for whole-building testing. (The IECC proposal has more information about how this cost estimate was made.) For this to be widely adopted by states, I believe this is a welcome option. Compartmentalizing individual apartments is a good goalAlternatively, some attempts were made by Steven Winter Associates to find links between single-unit, guarded, and whole-building blower door test data, and to arrive at “factors” for converting results from single-unit tests to exterior leakage figures that are more useful to energy models. This is as complicated as it sounds, and the best summary of that research is that more research is needed. One might argue for an alternative compliance option in the code that allows whole-building testing. But compartmentalization is a valuable goal in itself, and whole-building and guarded blower door tests do not take it into account.Compartment testing leads the building industry in the right direction. It fosters a natural alliance between fire safety, health, and energy conservation professionals that other test methods may not. It is easy to explain and understand even for someone who has never seen a blower door, and the immediate benefits are apparent to builders, residents, and landlords alike. It also takes the building industry as a whole in a progressive direction by actually quantifying compliance with requirements for unit separation.For example, consider fire-stopping. Passive fire protection includes stopping the passage of smoke and hot gases between compartments in a building. Manufacturers often color their products red, to make it easier to breeze through a code-required visual inspection of fire-stopping measures. Most inspectors see the red and check a box. By comparison, single-unit or compartment testing (the terms are used interchangeably here) is simpler than other methods. A single technician with a single blower door moves around the building and tests each unit individually. Because no steps are taken to nullify leakage from other apartments as in whole-building or guarded testing, this test quantifies leakage from the exterior walls as well as the interior demising walls, floors, and ceilings of a unit. Experienced technicians will tell you that it is common for this inter-unit leakage to rival or even exceed that of the exterior leakage. Because exterior leakage is really what matters for energy use, this test is not very useful for energy cost calculations. The simplest blower door test on a single family home measures only the leakage of the exterior envelope, which can be referred to as “exterior leakage.” In multifamily buildings, there are lots of other air leakage pathways besides from the exterior, and a blower door test on a single unit will measure some leakage from outside and some “inter-unit” leakage from other spaces. Multifamily buildings typically have lots of inter-unit leakage, but it’s exterior leakage from the outside that relates most directly to energy consumption.Similar to a single-family home test, whole-building leakage testing uses one or more blower doors to pressurize or depressurize the entire building at once, measuring all the exterior air leakage in one shot. Because all spaces in the building are under the same pressure, inter-unit leakage is negated. For a larger building this method often requires multiple blower doors and experienced technicians to conduct properly. Factors such as building height, design, stage of construction, and especially weather on the testing day can make a whole-building test a challenge. Still, this test is quite popular, particularly in Europe, and for large commercial buildings, it may be the only option.Another method is guarded blower door testing, which also requires multiple blower doors and experienced technicians to perform. It also aims to measure exterior envelope leakage by manipulating inter-compartment pressures with multiple fans.The figure below illustrates this technique in more detail. It’s called guarded testing because it uses secondary “guard” blower doors placed around the target unit. These are maintained at the same test pressure as the target unit, which neutralizes any inter-unit leakage. The result is that only exterior leakage is recorded from the target unit.By moving the doors around a building like a tic-tac-toe board, the exterior leakage of all the spaces can be isolated and recorded. The time-consuming process requires experienced operators, a good plan, and several blower doors even for a small multifamily building. This method is often used for research, but it is also a practical way to test some townhouse building configurations. A variety of test methodsThere are several valid ways to test a multifamily building’s air leakage with a blower door. Before we discuss these test methods, let’s first review some terminology. Changing the International Energy Conservation CodeMany states have adopted various versions of the IECC but have shied away from its provisions requiring blower door testing. Mostly likely this is because the prospect of requiring whole-building tests on all new residential buildings, particularly multifamily buildings, seems daunting. Many code councils probably didn’t see a productive way to introduce it. New Jersey, for example, took the requirements for inspections of the air barrier and blower door tests and changed it to inspections of the air barrier or blower door tests.Looking at some of the other currently recommended changes to the IECC regarding the blower door testing requirements, there are a range of approaches. Some are meant to strengthen the requirements, while others seek to weaken them or remove them entirely. But most seem to grapple with the difficult question of how to actually do blower door testing on larger residential buildings. Donald Surrena of the National Association of Home Builders in the U.S., a powerful industry group, attached the following comments to his proposal:“Air tightness testing for single-family detached homes is very straightforward; however, it is much more difficult to accurately test attached dwelling units, including multifamily buildings. Currently the IECC treats low-rise multifamily buildings of three stories or less like single-family homes and multifamily buildings of four stories or more like commercial buildings. Regardless of height, all multifamily buildings have the same airtightness testing complications, such as: Does the entire building need to be tested at one time? What about multifamily buildings with open corridors? Does every dwelling need to be tested? Can the leakages be averaged between units? Is the leakage tested only to the ‘outside’ or should it include leakage to adjacent units?”These questions and the resistance they cause are precisely the reason that an alternate approach to testing multifamily buildings is needed. Which test is best?Each test has its merits, but I believe that single-unit tests are most appropriate for residential buildings. Guarded blower door testing is more useful as a research tool, and whole-building testing can be too complicated and expensive to require on a wide scale.One might argue that a compartment test yields a number that is essentially useless for energy models because it measures mostly interior leakage. That is largely true. But the goal of an energy code requirement is to save energy, and testing compartmentalization will do that. The reasons are both practical and forward-thinking.Above all, for a code provision to be beneficial, it needs to be enforceable. More than the other methods, single-unit testing is easiest to introduce on a nationwide basis. It requires less training, experience, and equipment than whole-building tests. Many of the U.S. network of HERS raters and BPI professionals are all already qualified for it. As described below, the additional cost to builders in many cases will be less for single-unit tests than for other methods, when sampling protocols are used.There are several complications with conducting whole-building tests on a wide scale that make it more troublesome to require by code. First, these large tests have high mobilization costs, and there are fewer companies that own either high-powered fans or multiple blower doors for bigger buildings. Second, the entire building has to be prepared (central exhaust registers taped, windows locked, central fans switched off, etc.) before the test can be conducted, and for a large building this can take several hours. Workers also cannot enter or leave the building during the test; it must be “locked down.” For this reason, it is virtually impossible to do a big blower door test early in construction during normal hours because work on the building cannot stop. Punch list time is ideal because fewer workers are present, but fixing big problems at that stage is much more expensive.A single-unit test can be more useful to builders; it can be used to check progress and identify problems very early in construction when they are cheaper to fix. A tester can leapfrog and work around other trades in the building, reducing the disruption to regular workflow. If a unit passes the blower door test early on, the job is done; if not, fixes can be applied and a retest can be done in minutes.The possibility of demonstrating compliance early is very attractive because it reduces uncertainty and potential cost at the end of the project. In fact, a higher-volume builder may decide to purchase a blower door kit and self-check periodically. Wouldn’t it be a very positive side-effect if the blower door became a common tool of the builders of tomorrow?As for utility incentive programs that reward tight building exteriors, the builder may have to do a whole-building test at the end, but this is a much less worrisome prospect if smaller tests have been used to check progress along the way. In a previous article, I explained why it’s important to prevent air leaks between individual apartments in multifamily buildings — a type of air sealing known as “compartmentalization.” With my compartmentalization rant over, let me tell you how we can change our building codes to find a solution to the problem of leaky apartments, and why you should support a change to the language of the International Energy Conservation Code. A testing approach that is easier and cheaperThe proposed changes to the IECC should make it easier and less expensive for builders to comply with the new code mandate to conduct blower door testing on most residential buildings. It will also make buildings safer, healthier, and more comfortable. Furthermore, simple compartment tests are easier to implement on a wide scale, are more enforceable, take advantage of a very large and already-qualified workforce in the form of HERS and BPI testing specialists.Please view the proposal here and submit public comments by July 22. Look for Proposal RE56-16 on page 101. Anyone can view the proposed changes, but you’ll have to register with CDP Access to make comments. RELATED ARTICLES Compartmentalization in Multifamily BuildingsBlower Door BasicsA Few Pressure Testing Tips and TricksResidential CommissioningVentilation Rates and Human HealthHow Much Fresh Air Does Your Home Need?Makeup Air for Range Hoods
Two coaches of the Agra-Gwalior passenger train derailed at Agra Cantonment railway station early on Saturday morning. No injury has been reported yet.Railway officials rushed to the sport but clarified that no one was injured as the train was going to the yard for cleaning. The train traffic was not affected due to the derailment, they added.This comes after series of derailment was reported in last one month resulting in Suresh Prabhu, the-then union minister for Railways, offering to resign and major overhaul in the senior management of the Railway Board.Over 25 people were killed and more than hundred were injured when Utkal express derailed at Khatauli station near Muzaffarnagar in Uttar Pardesh on August 19.Similarly, three trains jumped off the tracks in Uttar Pradesh, New Delhi and Maharashtra on September 7 within a span of nine hours. The first accident occurred at 6:25 a.m. when seven coaches of the Jabalpur-bound Shaktipunj Express went off the tracks near the Obra Dam station in U.P.’s Sonbhadra district. Within hours, at around 11:45 a.m, the Ranchi-Delhi Rajdhani Express derailed near Minto bridge in the national capital, leaving one person injured. These two incidents were followed by the derailment of a goods train in Maharashtra’s Khandala at 3:55 p.m., railway officials said.