Human Energy Balance Research Articles

Exploring the effect of clothing moisture content on heat and moisture transfer from the human body using a sweating thermal manikin

Evaporative heat loss is an important component of the human body's energy balance and several developed thermal comfort models are available to assess heat and mass transfer during human sweating. However, the impact of sweat-soaked clothing due to human perspiration on heat and moisture transfer from the body remains understudied. In this study, the thermal and moisture properties of typical summer clothing were evaluated and moisture adsorption and desorption curves were obtained. The heat losses of the human body in different sweating states were compared using a sweating thermal manikin. It was found that the clothing moisture content and the clothing coverage ratio had a significant effect on the human body heat loss. As the sweating rate increases, additional resistances of the sweat moisture transfer will be added in the sweat-soaked clothing, which would adversely affect the skin temperature. The results show that the total thermal resistance of fully wetted clothing decreased by an average of almost 30% compared to dry clothing ensembles. To account for such differences, the clothing thermal and evaporative resistance, along with the temperature and vapor pressure at varying moisture contents were evaluated and predicted with empirical equations. This enables integrating a dynamic heat and moisture transfer model for the sweat-soaked clothing into a prevailing thermo-physiological model. Accounting for real clothing physical parameters is vital when evaluating thermal comfort in hot and humid weather conditions.

WRF-HEATS coupling: Incorporating human behaviors and city topography into urban heat stress evaluation

Urban human thermal stress can be inaccurately estimated along with less-understood heat heterogeneity due to the absence of high-resolution meteorological information and realistic human behavior representation. To this end, we coupled a regional climate model (weather research and forecasting model, WRF) and a human energy balance model (human-environment adaptive thermal stress model, HEATS) to predict pedestrian's dynamic thermal stress at a neighborhood scale. The WRF-human coupling system resolves human-environment heat exchanges based on meteorological and topographical information with the consideration of dynamic human activities. The coupling system has been tested and utilized to study dynamic heat stress in a typical hot, humid, and mountainous city, Hong Kong. Our results revealed widespread heat heterogeneity with up to 7 °C difference in Physiological Subjective Temperature (PST) in the core urban area, and extreme heat exposure (up to 45 °C PST) in calm-wind zones at noon. Heat stress can be further aggregated considering realistic human behaviors such as extra clothing (e.g., protective facemask during pandemics) and physical exercise (e.g., walking along inclined terrain). Optimal-thermal-comfort routes have been designed and suggested based on the simulated neighborhood-scale heat stress map.

A natural sustained-intestinal release formulation of red chili pepper extracted capsaicinoids (Capsifen®) safely modulates energy balance and endurance performance: a randomized, double-blind, placebo-controlled study.

Overweight and obesity are major public health concerns, with a sharp increase in prevalence over the last few decades. The primary cause is an imbalance between calorie intake and expenditure due to a rise in calorie-rich processed food and reduced physical activity. Energy balance in humans involves complex processes including thermogenesis, a crucial factor in regulating energy expenditure. In this randomized, double-blinded, placebo-controlled three-arm three-sequence study, we investigated the efficacy of Capsifen® (CapF), a pungency-masked sustained-intestinal release formulation of red chili extract, on energy expenditure, fat oxidation, and endurance using the Quark C-PET system in healthy overweight participants, with and without exercise. In the study, 105 healthy participants were randomized to receive either placebo, CapF 100 mg/day, or CapF 200 mg/day for 28 days. CapF demonstrated a dose-dependent response to increased energy expenditure and fatty acid oxidation with a concomitant reduction in body weight. Both CapF 100 and CapF 200 also increased the time to exhaustion. These results demonstrate the plausible efficacy of CapF in energy expenditure and physical performance in otherwise healthy adults who have a high body mass index. https://ctri.nic.in/Clinicaltrials/pmaindet2.php?EncHid=MjQzNTg=&Enc=&userName=CTRI/2018/04/013157 dated 04 October 2018.

Hourly values of an advanced human-biometeorological index for diverse populations from 1991 to 2020 in Greece

Existing assessments of the thermal-related impact of the environment on humans are often limited by the use of data that are not representative of the population exposure and/or not consider a human centred approach. Here, we combine high resolution regional retrospective analysis (reanalysis), population data and human energy balance modelling, in order to produce a human thermal bioclimate dataset capable of addressing the above limitations. The dataset consists of hourly, population-weighted values of an advanced human-biometeorological index, namely the modified physiologically equivalent temperature (mPET), at fine-scale administrative level and for 10 different population groups. It also includes the main environmental drivers of mPET at the same spatiotemporal resolution, covering the period from 1991 to 2020. The study area is Greece, but the provided code allows for the ease replication of the dataset in countries included in the domains of the climate reanalysis and population data, which focus over Europe. Thus, the presented data and code can be exploited for human-biometeorological and environmental epidemiological studies in the European continent.

Anti-Obesity Effect of Ethanolic Extract of Citrus Paradisi and Naringin in HFDInduced Animal Model

The study aimed to assess the effectiveness of Citrus paradisi, and Naringin on high fat diet rats.It must be clarified thatthe correlation between body fat and dietary fat levels, long-term energy intake and expenditure imbalances causes Obesity. Animalmodels have made a significant historical contribution to our understanding of the underlying variables that control the elementsof human energy balance. studies have shown that genetics considerably affect how the body reacts to meals high in fat-derivedenergy. Five sets of six male Wistar rats (120–150g); each group had five animals. Group I (Control), Group II (High Fat Diet),Group III (HFD+Naringin (100mg/kg body weight)), Group IV (HFD + Citrus paradise (500mg/kg body weight), and Group V (HFD+21.67mg/kg body weight) are the study groups (drug control). Physical factors such as body weight, organ weight, fat pad weight,and anthropometric parameters were assessed after introducing a high-fat diet. In addition, serum lipid profiles, glucose, insulin,leptin, and adiponectin levels, among other biochemical indicators, were analyzed. These outcomes would empower Citrus Paradiseand Naringin to be utilized as anti-obesity agents. Haemotoxylin and eosin staining was used to detect histopathological alterationsin adipose tissue. The effect of Citrus paradisi and Naringin treated with HFD-induced animals showed significantly higher (p<0.001*).It was observed by its action in reducing organ weight, blood weight, and serum lipids. This current study evaluated the evidencefor Citrus Paradise's effects on body weight, blood pressure, and lipid profile.

Host-diet-gut microbiome interactions influence human energy balance: a randomized clinical trial

The gut microbiome is emerging as a key modulator of human energy balance. Prior studies in humans lacked the environmental and dietary controls and precision required to quantitatively evaluate the contributions of the gut microbiome. Using a Microbiome Enhancer Diet (MBD) designed to deliver more dietary substrates to the colon and therefore modulate the gut microbiome, we quantified microbial and host contributions to human energy balance in a controlled feeding study with a randomized crossover design in young, healthy, weight stable males and females (NCT02939703). In a metabolic ward where the environment was strictly controlled, we measured energy intake, energy expenditure, and energy output (fecal and urinary). The primary endpoint was the within-participant difference in host metabolizable energy between experimental conditions [Control, Western Diet (WD) vs. MBD]. The secondary endpoints were enteroendocrine hormones, hunger/satiety, and food intake. Here we show that, compared to the WD, the MBD leads to an additional 116 ± 56 kcals (P < 0.0001) lost in feces daily and thus, lower metabolizable energy for the host (89.5 ± 0.73%; range 84.2-96.1% on the MBD vs. 95.4 ± 0.21%; range 94.1-97.0% on the WD; P < 0.0001) without changes in energy expenditure, hunger/satiety or food intake (P > 0.05). Microbial 16S rRNA gene copy number (a surrogate of biomass) increases (P < 0.0001), beta-diversity changes (whole genome shotgun sequencing; P = 0.02), and fermentation products increase (P < 0.01) on an MBD as compared to a WD along with significant changes in the host enteroendocrine system (P < 0.0001). The substantial interindividual variability in metabolizable energy on the MBD is explained in part by fecal SCFAs and biomass. Our results reveal the complex host-diet-microbiome interplay that modulates energy balance.

Dietary Temperature's Influence on Energy Balance in Humans: Protocol for a Randomized Controlled Trial and Crossover Design.

According to the first law of thermodynamics, energy cannot be created or destroyed in an isolated system. Water has a characteristically high heat capacity, indicating that the temperature of ingested fluids and meals could contribute to energy homeostasis. Citing the underlying molecular mechanisms, we present a novel hypothesis that states that the temperature of one's food and drink contributes to energy balance and plays a role in the development of obesity. We provide strong associations with certain molecular mechanisms that are activated by heat and correlate them with obesity and a hypothetical trial that could test this hypothesis. We conclude that if meal or drink temperature proves to contribute to energy homeostasis, then depending on its contribution and scale, future clinical trials should attempt to adjust this effect when analyzing data. In addition, previous research and established relationships of disease states with dietary patterns, energy intake, and food component intakes should be revisited. We understand the common assumption that thermal energy in food is absorbed by the body during digestion and dissipated as heat into the environment, not contributing to the energy balance. We challenge this assumption herein, including a proposed study design that would test our hypothesis. This paper hypothesizes that the temperature of ingested foods or fluids influences energy homeostasis through the expression of heat shock proteins (HSPs), especially HSP-70 and HSP-90, which are expressed to a greater extent in obesity and are known to cause deficits in glucose metabolism. We provide preliminary evidence supporting our hypothesis that greater dietary temperatures disproportionally induce activation of both intracellular and extracellular HSPs and that these HSPs influence energy balance and contribute to obesity. This trial protocol has not been initiated and funding has not been sought at the time of this publication. To date, no clinical trials are available regarding the potential effects of meal and fluid temperature on weight status or its confounding effects in data analysis. A potential mechanism is proposed as a basis by which higher temperatures of foods and beverages might influence energy balance via HSP expression. On the basis of the evidence supporting our hypothesis, we propose a clinical trial that will further elucidate these mechanisms. PRR1-10.2196/42846.

Discovery, development, and clinical proof of mechanism of LY3463251, a long-acting GDF15 receptor agonist

GDF15 and its receptor GFRAL/RET form a non-homeostatic system that regulates food intake and body weight in preclinical species. Here, we describe a GDF15 analog, LY3463251, a potent agonist at the GFRAL/RET receptor with prolonged pharmacokinetics. In rodents and obese non-human primates, LY3463251 decreased food intake and body weight with no signs of malaise or emesis. In a first-in-human study in healthy participants, single subcutaneous LY3463251 injections showed a safety and pharmacokinetic profile supporting further clinical development with dose-dependent nausea and emesis in a subset of individuals. A subsequent 12-week multiple ascending dose study in overweight and obese participants showed that LY3463251 induced significant decreases in food intake and appetite scores associated with modest body weight reduction independent of nausea and emesis (clinicaltrials.gov: NCT03764774). These observations demonstrate that agonism of the GFRAL/RET system can modulate energy balance in humans, though the decrease in body weight is surprisingly modest, suggesting challenges in leveraging the GDF15 system for clinical weight-loss applications.

Are gastrointestinal signals the principal guides to human appetite and energy balance?

In view of the exponential rise of global obesity in the past three quarters of the century, it is useful to examine what is driving this change and what approaches can curb it. The chief drivers of weight gain are, on one hand our misunderstanding of the mechanisms controlling energy balance, and, on the other, reliance on current, potentially misleading conflicting scientific opinions and government policies regarding the controls of human appetite. This review outlines the evidence that: (1) there is no direct bioenergetic feedback from energy metabolism or energy stores to the brain mechanisms guiding feeding and energy expenditure, (2) human appetite is controlled by signals originating from an empty or full stomach, food palatability and opportunities to eat as well by the rate of food absorption, that (3) humans bear a genetic burden of having high ability and capacity to store fat and mechanisms that curb body- mass and fat loss, (4) humans are motivated to overconsume while maintaining low energy expenditure, and (5) commercial interests of food businesses marketing highly palatable foods, and wide-spread mechanization of living tasks and urban design reduce the need for physical work and movement. The non-pharmacological and non-surgical solutions to obesity involve an understanding of human genetic impediments and environmental obstacles to maintaining healthy weight, coupled with deliberate corrective or preventive behaviors, such as understanding and using gastrointestinal tract signals that provide sufficient, albeit subtle, cues for sensible food intake, and using daily weight monitoring and activity tracking devices to record and motivate healthy levels of physical activity.

Predictive equations for energy expenditure in adult humans: From resting to free-living conditions.

Humans acquire energy from the environment for survival. A central question for nutritional sciences is how much energy is required to sustain cellular work while maintaining an adequate body mass. Because human energy balance is not exempt from thermodynamic principles, the energy requirement can be approached from the energy expenditure. Conceptual and technological advances have allowed understanding of the physiological determinants of energy expenditure. Body mass, sex, and age are the main factors determining energy expenditure. These factors constitute the basis for predictive equations for resting (REE) and total (TEE) energy expenditure in healthy adults. These equations yield predictions that differ up to ~400 kcal/d for REE and ~550 kcal/d for TEE. Identifying additional factors accounting for such variability and the most valid equations appears relevant. This review used novel approaches based on mathematical modeling of REE and analyses of the data from which REE predictive equations were generated. As for TEE, R2 and SE were considered because only a few predictive equations are available. From these analyses, Oxford's and Plucker's equations appear valid for predicting REE and TEE in adults, respectively.

Вплив гострого інтервального голодування на артеріальний тиск, маркери запалення і метаболічні показники

Obesity is increasingly common in post-industrial societies and poses a threat to public health. The main reason for the accumulation of excess adipose tissue is a violation of human energy balance. Modification of eating behavior is the basis for prevention and treatment of obesity and overweight. The purpose of the study was to examine the effect of acute fasting, over 16 hours in overweight and obese young and middle-aged people, on the level of highly sensitive C-reactive protein, interleukin 1-beta, blood lipids, fasting glucose, daily blood pressure and tolerability. Materials and methods. A prospective study was conducted involving 21 overweight and obese patients with a median age of 51 (28 ÷ 61) years. All hypertensive patients received stable antihypertensive therapy for three months and had office blood pressure targets at enrollment. A daily blood pressure study was performed in all patients using Heaco ABPM50. The test of rational nutrition with the calculation of daily calories was conducted using the program TRP-D02 Ukraine. All patients were tested for fasting glucose, blood lipids, creatinine, and C-reactive protein. All studies were conducted at the beginning and after intermittent fasting. Statistical analysis was performed using SPSS IBM 19.0. Results and discussion. The level of inflammation markers was assessed in all study participants, the level of highly sensitive C-reactive protein decreased from 10.591±8.679 mg/l to 4.861±3.239 mg/l (p &gt;0.05), and the initial level of interleukin-1 beta was 2.704±0.671 pg/ml, which did not change significantly after intermittent fasting – 2.607±0.698 pg/ml (p &lt;0.05). Study participants were divided into two groups, the older age group with body mass index of 32.6±5.0 kg/m2 and the young age group with body mass index of 23.9±2.8 kg/m2 (p &lt;0.01). It was found that after intermittent fasting, the level of triglycerides decreased from 1.8±0.8 to 1.5±0.3 (p = 0.05) mmol/l in the older age group. It was found that during fasting daytime systolic and diastolic blood pressure decreased, and night systolic and diastolic blood pressure increased (p &gt;0.05) in two groups. A balanced diet is a basis for preventing and treating obesity and overweight. A low-calorie diet is often recommended, but not all patients can follow this regimen. A new and alternative method is intermittent fasting with greater adherence in patients. However, there is insufficient data in the world literature on the effects of intermittent fasting, especially acute fasting, on inflammation, blood pressure and tolerability of the fasting period in different age groups. Conclusion. Acute intermittent fasting leads to changes in blood pressure, does not cause hypotension and is well tolerated by overweight and obese patients in the older age group

Improving outdoor human-thermal environment by optimizing the reflectance of water-retaining pavement through subjective field-based measurements

The role of urban surfaces in climate is recognized worldwide. Cool pavements such as reflective and water-retaining pavements contribute to the mitigation of urban heat. To optimize the cooling performance of a combination of reflective and evaporative characteristics, water-retaining (WR) pavements, with reflectance values of 13% (WR13) and 25% (WR25), were used and compared to a conventional asphalt pavement (AS). In addition to measuring surface and atmospheric temperatures, human-energy balance known as “human-thermal load” was assessed using perceptive responses obtained from participants (n = 78). Experimental insolation conditions were classified as low-, medium-, and high-based on radiation effects. Water-retaining pavements demonstrated significant surface temperature reductions compared to the overall AS; however, air temperature and humidity above the pavement were less sensitive, and they were not significantly different between the two distinct pavements. Under high insolation, local thermal comfort improved and skin temperatures of the lower body reduced. These consequently reduced the temperature perceived in the whole-body and improved the thermal environment on the surface of WR13. These results can be reasonably explained using the human-thermal load. The increase in thermal load from reflected solar radiation is limited below a certain level of insolation. The overall radiation received by WR13 was moderate from both ground-reflected and -sourced infrared radiation sources. The human-thermal load of WR13 was significantly different from that of AS under high insolation. A modest reflective pavement, such as WR13, is anticipated to improve human thermal comfort.

Application of Gagge’s energy balance model to determine humidity-dependent temperature thresholds for healthy adults using electric fans during heatwaves

Heatwaves are one of the most dangerous natural hazards causing more than 166,000 deaths from 1998–2017. Their frequency is increasing, and they are becoming more intense.Electric fans are an efficient, and sustainable solution to cool people. They are, for most applications, the cheapest cooling technology available. However, many national and international health guidelines actively advise people not to use them when indoor air temperatures exceed the skin temperature, approximately 35 °C.We used a human energy balance model, to verify the validity of those recommendations and to determine under which environmental (air temperature, relative humidity, air speed and mean radiant temperature) and personal (metabolic rate, clothing) conditions the use of fans would be beneficial.We found that current guidelines are too restrictive. Electric fans can be used safely even if the indoor dry-bulb temperature exceeds 35 °C since they significantly increase the amount of sweat that evaporates from the skin. The use of elevated air speeds (0.8 m/s) increases the critical operative temperature at which heat strain is expected to occur by an average of 14 °C for relative humidity values above 22 %. We also analyzed the most extreme weather events from 1990 to 2014 recorded in the 115 most populous cities worldwide, and we determined that in 93 of them the use of fans would have been beneficial.We developed a free, open-source, and easy-to-use online tool to help researchers, building practitioners, and policymakers better understand under which conditions electric fans can be safely used to cool people.

Examining runner's outdoor heat exposure using urban microclimate modeling and GPS trajectory mining

It is important to quantify human heat exposure in order to evaluate and mitigate the negative impacts of heat on human well-being in the context of global warming. This study proposed a human-centric framework to examine human personal heat exposure based on anonymous GPS trajectories data mining and urban microclimate modeling. The mean radiant temperature (Tmrt) that represents human body's energy balance was used to indicate human heat exposure. The meteorological data and high-resolution 3D urban model generated from multispectral remotely sensed images and LiDAR data were used as inputs in urban microclimate modeling to map the spatio-temporal distribution of the Tmrt in the Boston metropolitan area. The anonymous human GPS trajectory data collected from fitness Apps was used to map the spatio-temporal distribution of human outdoor activities. By overlaying the anonymous GPS trajectories on the generated spatio-temporal maps of Tmrt, this study further examined the heat exposure of runners in different age-gender groups in the Boston area. Results show that there is no significant difference in terms of heat exposure for female and male runners. The female runners in the age of 45–54 are exposed to more heat than female runners of 18–24 and 25–34, while there is no significant difference among male runners. This study proposed a novel method to estimate human heat exposure, which would shed new light on mitigating the negative impacts of heat on human health.

Review of the existing state of the art regarding the use of CFD and human thermophysiological models for the vehicular comfort assessment

The aim of this article is to present a comprehensive review of the state of the art regarding the use of the human thermophysiological model into computational fluid dynamics and the coupling of these two techniques. This article will focus on the modelling of the car cabin thermal environment, the integration of virtual thermal manikins and the thermal comfort assessment. Though the complexity of the car cabin geometry, the inhomogeneous air temperature/velocity fields, and transient conditions a CFD-simulation is a very powerful tool providing detailed results for a given sufficient computing power. Understanding the human body’s thermal aspects and quantifying cabin’s parameters are essential for a reliable computation. Virtual thermal manikins have become an important asset in numerical simulation, providing accurate predictions of human thermal sensation. For vehicular thermal comfort assessment, this article reviews the relevant thermal comfort indices. From 70’s, several human thermophysiological models have been developed based on the human energy balance equation to achieve realistic human thermal responses. This article introduces the most common human thermophysiological models classifies them into one-node, two-node, multi-node and multi-element thermal models. Today, in automotive R&D, the coupling technique is became a powerful tool for optimizing and evaluating the passenger’s thermal comfort.

Современные методы оценки комфортности биоклиматических условий курортных местностей

The modern approaches to assessing the comfort of bioclimatic conditions for rational recreational activities are analyzed. A review of modern domestic and foreign methods is carried out and their advantages and disadvantages in assessing the thermal comfort of a human are identified. Most of the bioclimatic indicators used are now considered outdated, since they do not take into account human physiological reactions. Many foreign authors are increasingly using in their practice more complex thermal bioclimatic indices based on the human energy balance. In Russia, such studies are still rare. From the indices based on the human heat balance, the paper considers the following: Physiological equivalent temperature (PET), Perceived temperature (PMV), Universal thermal climate index (UTCI). The main algorithms for calculating bioclimatic indices are proposed. The calculations use the complete human thermal balance equation and all parameters that affect human comfort. Calculation of bioclimatic indices of this type is considered to be a more effective method for assessing the comfort of bioclimatic conditions for territories intended for the organization of health-improving recreation and tourism. The noted indices have a greater variability of values ​​and, therefore, a higher informational significance in comparison with other bioclimatic indicators that are simpler in calculations, such as, for example, equivalent effective temperature (EET) and biologically active temperature (BAT). Thus, the conducted review of existing methods for assessing bioclimatic indicators identified their advantages and disadvantages, which is important for the subsequent selection of the most optimal method suitable for a particular recreational area with appropriate weather and climatic conditions.

Effects of Caffeine on Brown Adipose Tissue Thermogenesis and Metabolic Homeostasis: A Review.

The impact of brown adipose tissue (BAT) metabolism on understanding energy balance in humans is a relatively new and exciting field of research. The pathogenesis of obesity can be largely explained by an imbalance between caloric intake and energy expenditure, but the underlying mechanisms are far more complex. Traditional non-selective sympathetic activators have been used to artificially elevate energy utilization, or suppress appetite, however undesirable side effects are apparent with the use of these pharmacological interventions. Understanding the role of BAT, in relation to human energy homeostasis has the potential to dramatically offset the energy imbalance associated with obesity. This review discusses paradoxical effects of caffeine on peripheral adenosine receptors and the possible role of adenosine in increasing metabolism is highlighted, with consideration to the potential of central rather than peripheral mechanisms for caffeine mediated BAT thermogenesis and energy expenditure. Research on the complex physiology of adipose tissue, the embryonic lineage and function of the different types of adipocytes is summarized. In addition, the effect of BAT on overall human metabolism and the extent of the associated increase in energy expenditure are discussed. The controversy surrounding the primary β-adrenoceptor involved in human BAT activation is examined, and suggestions as to the lack of translational findings from animal to human physiology and human in vitro to in vivo models are provided. This review compares and distinguishes human and rodent BAT effects, thus developing an understanding of human BAT thermogenesis to aid lifestyle interventions targeting obesity and metabolic syndrome. The focus of this review is on the effect of BAT thermogenesis on overall metabolism, and the potential therapeutic effects of caffeine in increasing metabolism via its effects on BAT.

Clothing resistance and potential evapotranspiration as thermal climate indicators—The example of the Carpathian region

AbstractClothing resistance parameter rcl and potential evapotranspiration (PET), a major component of Thornthwaite type climate classifications, are used as thermal climate indicators for characterizing the thermal climate of the Carpathian region. rcl is simulated by a model based on clothed human body energy balance considerations. rcl refers to a walking human in outdoor conditions, whose somatotype can differ. Somatotype shapes are determined by applying the Heath–Carter somatotype method. PET is estimated using only air temperature and latitude as inputs. In addition rcl is linked to PET. The annual mean of rcl is statistically interconnected with annual sum of PET, and the annual fluctuation of rcl (drcl = rclmax − rclmin) with the annual fluctuation of PET (dPET = PETmax − PETmin). The Carpathian region's thermal climate is analysed by comparing PET results with rcl model results and rcl results obtained by statistical link. We showed that rcl model results are strongly sensitive to human body somatotype variations. It is also shown that the spatial heterogeneity of thermal climates is the lowest in the lowlands and the highest in the mountains. The spatial heterogeneity of rcl and drcl values obtained by statistical link is comparable to the spatial heterogeneity of PET, but is lower than that obtained from the rcl model. Similarly to rcl model results, rcl results obtained by statistical link are also sensitive to human body somatotype variations. All these results suggest that statistical connections between rcl and PET and drcl and dPET can be used as subunits in Thornthwaite type climate classifications to obtain human thermal climate information. Lastly, areas with the largest thermal contrast are reproduced in terms of both the annual sum of PET and the rcl, which is obtained by both the model and the statistical link.

Experimental Determination of Pedestrian Thermal Comfort on Water-Retaining Pavement for UHI Adaptation Strategy

Artificial impervious surfaces are one of the most significant factors contributing to urban heat islands (UHIs). Adapting to UHIs is a challenge in achieving thermal comfort. We conducted a quantitative and subjective evaluation of a closely paved novel water-retaining pavement (WR) and a conventional dense-asphalt pavement (AS). We investigated the thermal states of humans based on the human energy balance known as “human thermal load” as an indicator for the assessment, and the original human thermal load method was improved for assessing nonuniform environments such as pavements. We looked for individual thermal perceptions simultaneously. The experiment was conducted in typical summer weather. The surface temperature of the WR was found to be significantly lower, by 9.5 °C, while the air temperature and humidity above both pavements were not significantly different. Thus, air conditions did not directly affect the sensible and latent heat loss. The reflected solar radiation was significantly larger, and the infrared radiation was significantly smaller on the WR than on the AS due to the lower surface temperature from the water evaporation and higher reflectance. Further, the human thermal load at a pedestrian level of 1.5 m was found to be significantly different: 237 W/m2 for AS and 215 W/m2 for WR. In a subjective evaluation, the perceptions of WR tend to be distributed in smaller human thermal load, thereby resulting in a cooler and comfortable sensation. Therefore, we demonstrated that when compared to AS, WR significantly improves thermal comfort.

The impact of Bio geometry to enrich the Fashion design thought

There are many positive and negative energies that affect human, the bio geometric science is a translation of the language in which the universe deals with each other according to the laws of nature to enter the balance, the research problem is how can bio geometric science be applied in creating designs for a contemporary fashion to achieve a balance in the energy of the user? , the importance of the research is to reveal the energy of engineering shapes and Bio signatures in fashion design, the aim of the research is to apply the principles of bio geometric on fashion design and determining its effect on human energy balance, the research hypothesis is implementation of the bio geometric in fashion design that increases the user's energy and health. the most important results are A vital balance is achieved in energies of humans by using bio geometric shapes & Bio signatures in fashion design for many items like Blouse , Part , Dress , Skirt. and Using the Bio geometric principles in fashion design treat the defect that is present in energy centers in the wearer's body and it helps in self-healing for the wearer.