Adjoining Building Research Articles

Poe in Richmond: Celebrating the Poe Museum’s Centennial

Poe in Richmond: Celebrating the Poe Museum’s Centennial

The Canadian Excavations at Anemurium in Cilicia. By James Russell, with contributions from C.W.J. Eliot, Hector Williams, Sheila Campbell, Nigel Kennell, and Thomas Boyd (Archéologie et Histoire Romaine 45). Toulouse, Éditions Mergoil 2021. Pp. 155. €36.97. ISBN 978-2-35518-117-7 (paper).

<i>The Canadian Excavations at Anemurium in Cilicia</i>. By James Russell, with contributions from C.W.J. Eliot, Hector Williams, Sheila Campbell, Nigel Kennell, and Thomas Boyd (Archéologie et Histoire Romaine 45). Toulouse, Éditions Mergoil 2021. Pp. 155. €36.97. ISBN 978-2-35518-117-7 (paper).

SEISMIC ANALYSIS OF MULTISTORIED IRREGULAR AND REGULAR BUILDING WITH MASONARY INFILLS

Nowadays, as in the urban areas the space available for the construction of buildings is limited. So in limited space we have to construct such type of buildings which can be used for multiple purposes such as lobbies, car parking etc. To fulfill this demand, high rise buildings is the only option available. The performance of a high rise building during strong earthquake motion depends on the distribution of stiffness, strength and mass along both the vertical and horizontal directions. If there is discontinuity in stiffness, strength and mass between adjoining storeys of a building then such a building is known as irregular building. The present study focuses on the seismic performance of regular and vertical irregular building with and without masonary infills. In the present study G+11 building is considered for the analysis with modelling and analysis done on ETABS software v17.0.1. The earthquake forces are calculated as per IS 1893 (part 1): 2016 for seismic zone III. The width of strut is calculated by using equivalent diagonal strut method. Total five models are considered for the analysis i.e. regular building with bare frame, regular building with masonary infill, soft storey building with open ground storey, mass irregular building with masonary infill and vertical geometric irregular building with masonary infill. The non-linear static analysis (pushover analysis) and linear dynamic analysis (response spectrum analysis) are performed for all the models and thereby compare their results. From analysis, the parameters like performance point, time period, maximum storey displacement, maximum storey drifts, storey shears and overturning moments are determined and also comparative study is done for all the models. From the comparison, it is observed that the vertical geometric irregular building shows better performance under seismic loading and bare frame building shows inferior performance. Moreover, the performance of masonary infilled frame building is f

Simultaneous use of air-side and water-side economizers with the air source heat pump in a data center for cooling and heating production

Due to the development of information technology, energy consumption of data centers is increasing continuously and quickly. Therefore, finding solutions for minimizing the energy consumption of data centers and reducing the greenhouse gas emissions is essential. In this paper, a combined free cooling and waste heat recovery system is proposed to reduce the electrical energy consumption of a data center in Mashhad and to save the natural gas fuel consumption of its adjoining office building, as a case study. Two types of economizers including air-side economizer (ASE) and water-side economizer (WSE) systems are used for free cooling as well as an air source heat pump (ASHP) used as a waste heat recovery system. In fact, in this study, the effect of simultaneous use of the air-side economizer (ASE), water-side economizer (WSE) and air source heat pump (ASHP) is investigated for improving the energy performance index of the data center. For this reason, a thermo-economic-environmental analysis is performed to study the performance of the proposed system. The results show that the proposed system have the electricity and natural gas saving potentials of more than 250 MWh/year and 15,000 m3/year respectively, which leads to 267 ton/year of CO2 emission reduction. Furthermore, it is found that the Power Usage Effectiveness (PUE) index can decrease down to 2.07, indicating an improvement of 16% in the calculated energy efficiency of the data center. Finally, economic analysis shows that payback period of the proposed system will be 2.5 years.

Thermoeconomic and environmental feasibility of waste heat recovery of a data center using air source heat pump

Currently, the vast amount of heat generated by electronic equipment in the data canters is removed using high energy consumption mechanical systems. Hence, there is a good potential to use waste heat recovery systems for space heating purposes in order to reduce the energy consumption, energy cost as well as pollutant emissions. In present study, the feasibility of using the air source heat pump (ASHP), as a waste heat recovery system operating with different refrigerants, in a 54-racks data center in Mashhad city of Iran has been investigated to save the electrical energy consumption of the mechanical cooling as well as the natural gas fuel consumption of the adjoining office building with area of 416 m2. The energy-environmental-economic analysis results indicated that around 35000 m3/year natural gas saving, 20.8 MW h/year electrical energy saving, 121 tons/year CO2 emission reduction and 25000$/year cost saving can be achieved through using the proposed waste heat recovery system. Furthermore, the proposed system, with a payback period of 2.5 years, can improve the power usage effectiveness (PUE), energy reuse factor (ERF) and energy reuse effectiveness (ERE) of the data center.

Étude d’un fossé et d’architectures en terre fondés au milieu du 3e millénaire av. J.-C. sur le plateau des Costières (Garons, Gard, France)

The purpose of this paper is the detailed study of one of the excavations that has marked the evolution of Fontbouïsse of MITRA III located in Garons (Gard, France) whilst focussing on the development and the disappearance of enclosures in the south of France. The site located near to a site known as Puech Ferrier, an unpublished enclosure of MITRA III excavated in 2011, was first excavated in 2012 within the framework of preventive archaeology. This exploration of a 5000 m ² surface revealed the southern part and the entrance of an installation delimited by at least two ditches which succeed one another, dating to a period between the 27th and 24th centuries BC that includes the development of the culture of Fontbouïsse, the Campaniforme (Bell Beaker) and the emergence of the early Bronze (BA2). A network of three concentric ditches, the innermost enclosure being the oldest, makes up the first enclosure, where an interruption in the ditches allows access to the site. A later much larger wider and deeper ditch cuts across the first enclosure. The paper focusses on the study of this ditch and its fill, which is the only enclosed site dating to the Late Neolithic in the south of France. Observed over nearly 90 m, this ditch delimits the southern part of the site. It contains fragments of mudbrick over a silty ashy layer the anthracological spectrum of which contains mainly by oak. Based on the results of stratigraphic and soil micromorphology, a phased filling of the ditch can be proposed. Micro-and macroscopic characterization of the earthen elements found in the ditch have specified the nature of the cob and wattle and daub and the demolished structure they came from. The findings reveal that the ditch remained open for a relatively short period of time, after which a cob structure, perhaps a wall, was installed, the base of which is preserved in a portion of the ditch. The ditch was then filled in by the destruction of another earthen and wood structure. This architecture could have been used to strengthen the monumental aspect of the enclosure, the hypothesis being that it copied a layout observed on other Fontbuxien settlements. A violent fire subsequently destroyed this ditch-wall enclosure and a possible adjoining building. Following on from this event, the ditch was re-dug before being filled in after the site is abandoned. The exact dating of the ditch and the destruction of the earthen wall remain imprecise. Some elements found in the lower ditch fill date to the first phase of the Fontbouïsse culture. They stylistically refer productions from the plain of Hérault and Gard. However, the destruction of the earthen architecture is dated by radiocarbon analysis and pottery found in the upper layers and the discovery of a sherd with international style decoration gives a later dating range of between 2450 and 2250 cal. BC. This enclosure and its destruction constitute a milestone in Fontbouïsse and Late Neolithic chronology. Its foundation and destruction occur within a short space of time. The events that occurred during the history of MITRA date the initial foundation and development of the concentric enclosures and the site''s total overhaul, which happened shortly before its abandon. The entrance identified at Mitra III, the new ditch with its earthen architecture that cut across the first enclosure around 2500 cal. BC questions our knowledge of the development and disappearance of enclosures at a pivotal period (Late Neolithic-Early Bronze Age) in southern France.

Analysis of One Bay Residential Building with Combined RCC Frame and Load Bearing Wall Structures

The major purpose of this study is to justify construction method of a hybrid structure in core area with construction complexity due unsafe excavation conditions and tries to define its rigidity and strength. Both RCC and Frame structure transfer same load to ground through foundation but the transfer mechanism varies. In some practical condition, building construction should be carried out in compact areas with unsafe adjoining building where adequate excavation for foundation cannot be carried out. In such cases, one bay hybrid structure is proposed for construction with combined RCC frame structure and load bearing walls. In these combined cases, both structures works as same unit to transfer building load but the transfer pattern varies. The variable load transfer pattern is due to discontinuity in structural system which also effect on seismic response of the building. The placement of a masonry load bearing structure in RCC frame structure varies design of all structural components of the building. To study actual behavior of hybrid structure in various load condition and introducing cost minimization techniques of buildings structural analysis was carried using ETABS 2016 with composite structural arrangement and with induction of load bearing wall as structural component. By which seismic behavior of building in both cases was obtained as well as reduction in rebar percentage and dimensional reduction of structural components can be achieved.Journal of the Institute of Engineering, 2017, 13(1): 117-124

Update on the change in sound insulation requirements in Canada

In the 2015 edition of the National Building Code of Canada (2015 NBCC, published in January 2016), sound insulation requirements between dwelling units are given in terms of Apparent Sound Transmission Class (ASTC). This is a significant change from the requirements in previous editions of the NBCC which were given in terms of Sound Transmission Class (STC). While the STC rating only accounts for sound transmission through the separating assembly, the ASTC rating also takes into account structural flanking transmission via adjoining building elements. An overview of the change in requirements and of NRC activities to support the code change was given at the ASA meeting in Jacksonville (November 2015). This presentation will provide an update on the implementation of the code change since it came into effect in federal regulations in early 2016. Tools and guidelines provided by the NRC such as Research Report RR-331, “Guide to Calculating Airborne Sound Transmission in Buildings” and the revised version of soundPATHS, NRC’s web application to calculate ASTC ratings, will be presented.

Erratum to: Magnesium sulphate salts on monuments in Saxony (Germany): regional geological and environmental causes

A record of mortar and salt analyses from the last 20 years on various monuments in Saxony demonstrates the close relation between the occurrence of magnesium sulphate salts and the use of dolomitic lime mortars in a regional frame. The regional distribution scheme of dolomitic lime in historic mortars depends on the geological setting of the territory, i.e. the natural occurrence of dolomite deposits. Sulphation of these mortars with the formation of magnesium sulphate and gypsum is mainly due to environmental pollution, as can be shown by sulphur stable isotope analyses. Exposure of the sulphated mortar surfaces to rain leads to the preferential dissolution and advective transport of the novel formed magnesium sulphate salts, which effloresce or subfloresce on the mortar surface or can be accumulated in the structure of adjoining porous building materials like natural stones. These processes may cause severe damages in mortars by the weakening of the binder and in porous stones by salt crystallisation of phases like epsomite and hexahydrite.

Analysis of ethylene oxide gas house explosion

An explosion destroyed a small “Gas House” in which aerosol cans were being filled with ethylene oxide on June 24, 1997. At issue was whether the ignition occurred in the Gas House or from a remote catalytic converter. Our investigation of the pattern of blast damage supports ignition at the catalytic converter that generated a burn-back through the ducting. A strong jet ignition reached a flammable atmosphere in the Gas House and ignited an explosion that well exceeded the yield strength of the prefabricated metal Gas House in spite of the vent panels and access doors being released and discharging of the fire suppression system. One of the doors from the Gas House flew off of the building as hazardous debris, which impacted and catastrophically failed a second door located in an adjoining occupied building. This resulted in the only fatality associated with this event. This study illustrates the damage patterns that indicate the direction of the initial explosion wave. © 2007 American Institute of Chemical Engineers Process Saf Prog, 2007.

Suicide With Associated Acts of Arson: Two Cases from Colorado

We report on two cases of suicide in which the victims started fires before their deaths. In one case the victim died of a single self-inflicted gunshot wound to the head after setting several fires in his residence. In the second case the victim hung himself after setting several fires in his residence and an adjoining building. In both cases, the victim's position was not near the origin of the fires suggesting that the arson was not a failsafe device to the primary mechanism of suicide. Neither victim showed a significant percentage of carboxyhemoglobin, or thermal damage from the fires. Both cases are remarkable in that, had the fire caused more damage to the remains and dwellings, a finding of suicide may not have been reached. We discuss similar aspects between the two reported cases and discuss differences observed with similar events such as complex suicide, suicide by self-immolation, and concealed homicide by burning. Similar cases should be reported to broaden our understanding of these complex events.

Roof-Mounted Ventilation Towers – Design Criteria for Enhanced Buoyancy-Driven Ventilation

Ventilation towers are often incorporated into the design of naturally-ventilated buildings. These towers increase the physical height of the building and thereby potentially enhance the buoyancy-induced air velocity. However, acoustic baffles, insect meshes, etc., placed within the towers result in pressure losses that effectively reduce the area of the flow path, thereby restricting the rate of airflow. These competing effects (enhanced velocity and reduced area) mean that without careful attention to design, a building with a tower may yield lower airflow rates than a building without a tower. Industry has sought guidance on the effect of these towers on the ventilation of the adjoining building and we derive conditions for a ventilation tower to have a beneficial effect on the airflow rate. Conditions are developed for passive-stack ventilation driven by distributed and localised internal heat sources and then extended to take into account solar heat gains. Based on these conditions, design curves are presented together with a methodology for estimating the minimum tower height that will not be detrimental to the ventilation flow rate. An example is given illustrating the use of this technique.

« La Buffette », une résidence patricienne des XIIe et XIIIe siècles à Provins

« La Buffette », a patrician residence of the twelfth and thirteenth centuries in Provins. The hôtel de la Buffette is located in the upper city at Provins, a short distance from the place des Changes, one of the economic hubs of the city. It is composed of a residence with a tower dating from the mid twelfth century and an annex, from the thirteenth century, which embraces the southern flank and was originally much larger. The tower is a remarkable building which still rises two stories and is covered with impressively constructed vaults and appointed with engaging capitals (one represents the « Temptation of Adam and Eve »). The upper story is particulary well designed for a residence, with chimney, sink, a small chamber for the latrine and a wardrobe annex. The adjoining building is also equipped with several latrines. Probably built by a noble family from Brie, the Bristaud, the « tower manor » is one of the rare examples of an aristocratie Romanesque residence in northern France. The construction is of very high quality, comparable with that of contemporary religious buildings such as the collegiate church of Saint- Quiriace. The « tower manor » passed into the hands of a bourgeois family in the thirteenth century and took on the form of a large composite residence.

L'étude dendrochronologique de l'habitat médiéval immergé de Colletière, à Charavines (Isère) : interprétations archéologiques

Lucie Leboutet and Michel Colardelle with Evelyne Charles and Bernard Dangreaux, Dendrochronological study of the medieval underwater building at Colletière, Charavines (Isère ) : archaeological interpretations. A group of 37 samples of oak found in the building 11 of Colletière at Charavines (Isère) have improved our knowledge of life in this medieval village. These results were obtained through the particular care taken in obtaining these samples and the excellent preservation of the wood samples some of which even include the sapwood and the bark. Two years of demolition, followed by two years of building or restoration have been established at an interval of fifteen years. The dating of each of the stales has made it possible to expose the initial plan of the building and the different stages of the restoration. The comparison of the wood with that coming from the building 1 (study printed in Archéologie Médiévale, X, 1980) adjoining building 11 enables the synchronous dating of the work, which confirms the existence of a communal organisation in the village, as already noted. Lastly, the dendrochronological study reveals that the total period of occupation did not exceed thirty years within the period lasting from 980 to 1050.

Displacement and deformation measurements over longer periods of time

Two investigations are presented. Firstly, an investigation of displacements occurring in the walls and roof of an underground mine in central Sweden. The area to be studied is photographed stereoscopically using a Wild P32 phototheodolite mounted on an elevator tripod. Since only displacements in a vertical plane required in this case, only single photographs were taken at the later date, with the camera in as nearly the same position, and directed in as nearly the same direction as possible as for one of the earlier stereophotographs. After applying corrections for possible variations in inner orientation, and performing an absolute orientation on geodetically determined reference points, the displacements of all measured points were determined. Secondly, a simulated investigation to determine the practicability and accuracy of determining the relative displacements of adjoining building elements in multistorey structures. In this investigation only single photographs were taken with a Hasselblad superwide angle, non-metric, film camera. This investigation was conducted indoors under relatively favourable conditions. The aim of both of these investigations was to determine displacements over longer periods of time; this time factor often makes point identification difficult in photographs taken at the later time. To lessen this difficulty a modified procedure for the measurement of time-parallax was introduced. This procedure is described.

PEDIATRICS IN THE PAST

The New York Foundling Hospital, now located in a new, modern building (Fig. 1) has been in continuous operation for over 90 years. The New York Foundling Asylum, as it was originally known, opened its doors on October 11, 1869; it was the first institution in the United States devoted exclusively to the care of abandoned, neglected or dependent infants, regardless of race or creed. It preceded, by only 2 years, Chicago's Foundling Home, which was organized in 1871 by Dr. George Elias Shipman, a well-known New York physician who had migrated to Chicago. The New York Foundling Asylum was founded by the Roman Catholic Order of the Sisters of Charity of St. Vincent de Paul; it had, as its primary objective, the reduction of the appalling rate of infanticide in New York City, most of these deaths being attributable to exposure. In the first year of operation, 61% of the infants admitted were in extremis. While it may be an exaggeration to say that the streets of New York were covered with dead and dying infants, it certainly would not be an exaggeration to say that it was commonplace. Indeed as late as 1892, according to Thomas Knox, 200 foundlings and 100 dead infants were found in New York City streets. The first residence of the New York Foundling Asylum was a modest, 4-story brownstone building at 17 East 12th Street (Fig. 2). This building was situated on the north side of the street between Fifth Avenue and University Place—a site now occupied by the Aristocrat Garage. The adjoining building, No. 15, partially visible in the photograph, is still standing and in use.

Physical factors of a low-power medical reactor.

Relatively low-power, homogeneous, solid-fuel reactors became available for training and familiarization during the year 1957. These reactors were intended for the training of scientific and engineering students, in a program of reactor technology being supported by the U. S. Atomic Energy Commission (A.E.C.). A type offered by the Aerojet-General Nucleonics Laboratories of San Ramon, Calif., the AGN-201, stimulated the interest of staff members of the Isotope Branch of the U. S. Naval Hospital, Bethesda, Md. The reactor was investigated and, when it was found to be intrinsically safe for operation in proximity to a hospital, the process of licensure and procurement was initiated. The AGN-201 (Fig. 1) was designed to operate at 0.1 watt and, with the exception of the control console, was a unit package, including the shielding. In order to furnish medically useful isotopes, a minimum requirement of 3 and perhaps 5 watts of power was thought desirable. This higher power level, when authorized by the A.E.C., required some modifications of the 0.1-watt model. These modifications, chiefly reflected in the levels of instrumentation and increase in bulk shielding, were readily accomplished by the manufacturers. The reactor, for which a twenty-year license has been issued to the U. S. Naval Hospital (Bethesda), is an integrated part of the isotope branch of the Radiology Service of the hospital. In addition to x-ray therapy, an extensive radioisotope service for both diagnosis and treatment is maintained. A nuclear casualty evaluation facility is under consideration. The reactor is expected to augment all of these. The reactor is installed in a 21 × 21 × 21-foot air-conditioned concrete “block-house” type of building. With the console, it occupies most of the square footage of the building. “Cat-walks,” graphite column, and building services occupy the cubic footage. To utilize the reactor products, a radiochemical laboratory is located in the adjacent building with access to the reactor room through an interlocking door. Conventional chemical laboratories and radionuclide counting and assay rooms are also in the adjoining building, as is the office and health physics section. The characteristics of the reactor, reported by Biehl et al. (1) are as shown below. It must be noted, however, that Biehl's paper dealt with the 0.1-watt reactor and that power and flux levels have been adjusted for the 5-watt level at which we are licensed to operate. The reactor with these characteristics (Fig. 2) is a unit fabricated with three concentrically located waterproof metal tanks. The core tank is the inner tank of aluminum, containing the uranium core or fuel and is small and located in the reactor center. The larger tank containing the reflector and gamma shield, entirely encapsulates the core tank; this is known as the reactor tank.

New Research Facilities

The University of Maryland, College Park, Md. has completed a million dollar physics laboratory and an adjoining mathematics building, which houses the Institute for Fluid Dynamics and Applied Mathematics and an extensive physics-mathematics-engineering library. A laboratory for molecular physics, directed by Professor A. M. J. F. Michels, is now under construction and will be completed early next year. New research programs have been begun in cosmic rays, microwave physics, solid state theory and elementary particle theory, and statistical mechanics are being continued. Graduate assistantships in teaching or research are available, paying $1200 minimum plus full tuition for the academic year. Requests for further information should be directed to Dr. John S. Toll, head of the physics department

Behaviour of a Cuckoo

A PAIR of pied wagtails built their nest beneath the crest-tile at the end of the roof of a cowhouse. The entrances to the nest were two, one at the gable end where the mortar was loose, the other on the roof itself beneath the tile. On June 24, at 5.30 p.m. (G.M.T.), a female cuckoo circled round the building, and presently, settling beneath the crest-tile, attempted to effect an entrance through the larger opening. But the opening was too narrow, and the bird could not force its body in beyond the shoulders. It therefore flew away and settled upon an adjoining building, but, returning in less than a minute, made a further attempt and failed again. These efforts were repeated a number of times without success. Two attempts were then made through the smaller opening on the roof, which, of course, also failed, and so the bird returned to the main opening and made still further and more determined efforts to enter, and the impulse to attain its end seemed to be increasing gradually in strength.

Medical News

<h3>ARKANSAS</h3><h3>New Officers.</h3> —Fulton County Medical Association organized at Salem, April 5: president, Dr. C. W. Culp, Mammoth Springs; secretary-treasurer, Dr. J. L. Weathers, Salem.—Ouachita Medical Society at Camden, April 4: president, Dr. J. W. Meek; secretary treasurer, Dr. Calvin S. Early, both of Camden. <h3>Personal.</h3> —Dr. T. M. Rice, Avoca, was awarded the verdict at Bentonville, April 4, in the suit brought against him by W. L. Roller for $10,000 for alleged malpractice.—Dr. W. A. Harvey, Berryville, was caught under a falling tree in a windstorm and seriously injured. He was not found by searching parties for two days, and was then almost dead from exposure. <h3>Disastrous Fire in Hot Springs.</h3> —As the result of an explosion in the basemen of the building occupied by the Central Sanatorium, Hot Springs, the building and the adjoining building were destroyed, burning out the offices of Dr. E. F.