Combined Methods for Physical and Mental Workload

This chapter presents information about the methods that combine physical and mental workload/fatigue during ergonomic evaluation. The methods were identified through a systematic literature review. The search criteria were done through a literature search in databases like SciFinder, SciELO, ScienceDirect, etc. As result, the following methods are described: Global Load Scale, Multivariate Workload Assessment, Subjective Fatigue Symptoms Test, Fatigue Assessment Scale, Scale of Recovery for Exhaustion of Occupational Fatigue, Scale of Estimated Fatigue-Energy Points, Swedish Occupational Fatigue Inventory, NASA-TLX, Combined Cognitive and Physical Assessment, Laboratory Method of Economics and Sociology of Work, OWL Method, Ergonomic Checklist Method, RENAULT Method, Joyce Method, NERPA Method, ARBAN Method, and MAPFRE Method. As a conclusion, it is possible to affirm that there are some evaluation methods that provide better elements for an accurate evaluation, and others lack basic elements, which causes an incomplete/not accurate evaluation.

The Hypotheses Testing Method for Evaluation of Startup Projects

This paper suggests new perspective to evaluating innovation projects and understanding the nature of startup risks. Author consider five principal hypotheses that underlie every innovative project that comprise a bunch of respective assumptions to manage startup risks in a proactive manner. Suggested approach spots the light on a project’s uncertainties and risks, embedded investment and managerial options, and enables more comprehensive and accurate evaluation of innovation. The Hypotheses Testing Method enables to estimate risks and attractiveness of a startup project in a clear and fast manner. It replaces unclear traditional techniques like NPV and DCF, avoiding heavy cash flow modelling.

INDIVIDUAL AND GROUP INDICES OF VELVET ANTLER PRODUCTION OF MARALS FOR THE PERIOD OF THEIR ECONOMIC USE

Maral breeding is a promising direction of animal hus-bandry in the Altai Region and the Republic of Altai. Breed-ing of highly productive maral stags is based on the proper organization of breeding work which is not possible without an accurate evaluation of individual and group indices of velvet antler weight. In this regard, the research goal is to study individual and group indices of velvet antler produc-tion of marals for the period of their economic use depend-ing on the age. It was found that the velvet antler weight increased by 6.3 kg over the entire study period, and there was a decreasing tendency of the productive index in thir-teen-year-old marals by 800 g. It was found that in the maral stag herd in 2021, the maral stag born in 2008 with velvet antler weight of 18.8 kg became the record holder. The main criteria for culling were decreased velvet antler production and fatness; the age of those animals was from eleven to fourteen years. In this regard, it was found that individual highly productive thirteen-year-old maral stags could consistently produce high-weight velvet antlers dur-ing the period of their economic use. To improve the quali-tative composition of marals, at breeding time, it is neces-sary to evaluate and select high-productive stags from six to twelve years old individually in dynamics and cull low-productive ones regardless of age.

An Assessment of Heating Load Reduction by a Solar Air Heater in a Residential Passive Ventilation System

In this paper, the authors examined the technology to maximize the use of renewable energy. Passive ventilation systems are expected to reduce the energy consumption of the fan and the maintenance burden. In addition, the wall-mounted solar air heater can supply thermal energy without using any energy at all. Therefore, this paper presents a “passive ventilation system with a solar air heater” that combines a passive ventilation system with the solar air heater to preheat the air. This system can reduce the ventilation load. To evaluate the solar air heater performance in a real environment, we developed a simulation for calculating the heat collection capacity of the solar air heater, and then the system was implemented in a real building for verification. The simulation performs hourly unsteady calculations, allowing for accurate evaluation of the annual simulation. Based on the measurement results, the effects of heating load reduction and prediction methods are presented. The solar air heater reduced the monthly ventilation load by up to 50% or more, and by at least 15%. It was also confirmed that there was a high correlation between the actual measurements and the simulation results.

Assessment of Color Discrimination of Different Light Sources

Light quality is a key parameter of building design, which is mainly defined by the perceived luminance and the color rendering. Nowadays, there is a wide variety of metrics that do not converge in the color rendition evaluation of current light sources. The obsolescence of the Color Rendering Index promoted the rise of new procedures to provide an accurate evaluation. However, the score provided by most of these metrics does not distinguish between color deviation and hue discrimination, giving a single value to assess the overall color perception allowed by a light source. In this context, a new study is proposed, based on the evaluation of seven different light sources, comparing the results of the most recent color rendering metrics and those observed using a Farnsworth–Munsell trial carried out with 115 participants. The results obtained show that there is a notable divergence between color rendition and hue discrimination, although there is a clear proportionality between both. Moreover, a clear relationship is observed between color discrimination and the correlative color temperature of light sources, providing a better hue distinction with cool light sources, even though the psychological preferences of the participants do not coincide with the optimal scenario for color discrimination.

Shy Times in 1850s Wellington: will the real architects please stand up?

Wellington was in a period of transition in the 1850s. The first flurry of settlement was easing somewhat and trading was becoming established. However, the earthquakes of 1848 and 1855 shook not only buildings not designed to withstand them, but also the confidence of the immigrant population. People were quick to realise that timber flexed better than brick or cob, but, in the process, they lost several of the earliest buildings with any pretensions to architectural merit. Together with the shaky nature of the economy, and the fact that Auckland was the capital city, there was little incentive for men whose sole training was in architecture to attempt to practice full time.The paucity of architectural records from the 1850s further complicates accurate evaluation of the situation, but it is clear that many of the people designing buildings had multiple skills in several other fields besides architecture. Buildings definitely dated to the 1850s that remain in Wellington can be numbered on one hand and not one of them can be said to have been designed by an architect. The two men with the largest tallies of Wellington building designs in the 1850s also claimed skills in surveying and civil engineering, whereas the two (possibly three) trained architects that we know of seem to have obtained minimal work in their field and to have largely diversified into other occupations. A further five names are associated with Wellington architecture in some way during the 1850s, either with the design of single buildings or simply advertising their services in local newspapers - with no evidence they actually obtained any work. In this paper we look at the backgrounds of the major designers including the trained architects, their work and a few of the factors which caused most of them to seek alternative employment.

High-Resolution and Multimaterial Fracture Productivity Calculator for the Successful Design of Channel Fracturing Jobs

We developed a high-resolution fracture productivity calculator to enable fast and accurate evaluation of hydraulic fractures modeled using a fine-scale 2D simulation of material placement. Using an example of channel fracturing treatments, we show how the productivity index, effective fracture conductivity, and skin factor are sensitive to variations in pumping schedule design and pulsing strategy. We perform fracturing simulations using an advanced high-resolution multiphysics model that includes coupled 2D hydrodynamics with geomechanics (pseudo-3D, or P3D, model), 2D transport of materials with tracking temperature exposure history, in-situ kinetics, and a hindered settling model, which includes the effect of fibers. For all simulated fracturing treatments, we accurately solve a problem of 3D planar fracture closure on heterogenous spatial distribution of solids, estimate 2D profiles of fracture width and stresses applied to proppants, and, as a result, obtain the complex and heterogenous shape of fracture conductivity with highly conductive cells owing to the presence of channels. Then, we also evaluate reservoir fluid inflows from a reservoir to fracture walls and further along a fracture to limited-size wellbore perforations. Solution of a productivity problem at the finest scale allows us to accurately evaluate key productivity characteristics: productivity index, dimensional and dimensionless effective conductivity, skin factor, and folds of increase, as well as the total production rate at any day and for any pressure drawdown in a well during well production life. We develop a workflow to understand how productivity of a fracture depends on variation of the pumping schedule and facilitate taking appropriate decisions about the best job design. The presented workflow gives insight into how new computationally efficient methods can enable fast, convenient, and accurate evaluation of the material placement design for maximum production with cost-saving channel fracturing technology.