ENERGY EFFICIENCY IN CONSTANTA HARBOR- A THEORETICAL ASSESSMENT OF THE PERFORMANCE OF A HEAT PUMP FOR HEATING NEEDS, FOR A LESS POLLUTANT ADMINISTRATION OFFICE

In accordance with the present energetic exigencies, the energy consumption in port buildings is of a vital importance. From this perspective, heat pumps are less pollutant and more energy efficient options than the traditional heating technologies. This study focuses on an air source heat pump (ASHP), operating in an administration office located in Constanta harbor, Romania, in order to supply heated water during December of 2020. Electrically driven heat pumps are seen as a successful alternative to classical expensive heating means, such as electrical heating or the one based on fossil fuels combustion. Within this research, are investigated influences of the heated water temperatures and exterior air temperatures on the theoretical Coefficient of Performance, the compression ratio and the discharge temperature. The cycle is working with R134a, with 50C superheating and sub cooling. It will be considered that the heated water is supplied in the range (40-50) 0C, while the outdoor air temperature varies in the range (0-10) 0C. Obtained results show that the highest efficiency of the ASHP is obtained for the lowest value of the heated water temperature and for the highest value of the outdoor air temperature. This situation corresponds also to the good working of the compressor of the refrigeration plant, since are seen lowest values of the compression rate and the discharge temperature, as well. This means that the compressor do not consume high amounts of energy and the oil is not damaged because of high temperatures of the refrigerant vapors.

Effects of Heated Drinking Water on the Growth Performance and Rumen Functionality of Fattening Charolaise Beef Cattle in Winter

The effects of heated drinking water on growth performance and rumen functionality in fattening beef cattle during winter were evaluated. Newly received Charolaise bulls (n = 224) were allocated to two experimental groups: (i) water at room temperature (RTW) (weight 408 ± 34 kg); (ii) constantly heated water (25 °C) (HW) (weight 405 ± 38 kg). Growth performances, feed intake, feed conversion rate, water intake and carcass characteristics were evaluated. Internal reticuloruminal wireless boluses were used to collect rumen pH and temperature values every 10 min. Bodyweight was not affected by the water temperature, but the overall average daily gain (ADG) was significantly higher in the HW group (1.486 vs. 1.438 kg/head/day in the RTW; p = 0.047). Dry matter intake was significantly higher in the HW group (p = 0.001), even though the final feed conversion rate (FCR) was not influenced. There was also a tendency for better cold carcass weight (CCW) and carcass yield (CY) in the HW group. Drinking heated water reduced the time (min/day) during which the ruminal pH was below pH 5.8 or 5.5, and the time during which the temperature was lower than 37 or 39 °C (p < 0.001). The use of heated drinking water is a plausible a strategy for enhancing ruminal stability and the overall production efficiency in fattening beef cattle, which will lead to both better growth performance and higher ruminal stability.

High-intensity interval vs moderate-intensity continuous exercise in heated water-based on acute hemodynamic, vascular, and cardiac autonomic responses in older individuals with hypertension

Funding Acknowledgements Type of funding sources: Foundation. Main funding source(s): Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP #2017/25648-4 #2018/09695-5) and Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES – Finance Code 001). OnBehalf Exercise and Chronic Disease Research Laboratory (ECDR) Introduction Post-exercise hypotension is an important tool in the treatment and control of hypertension. In recent years, high-intensity interval exercise (HIIE) has gained significant popularity in exercise-based prevention and rehabilitation of clinical populations. However, to date, it is not clarifying the acute responses of exercise performed in heated water-based in older individuals with hypertension. Purpose To assess hemodynamic, vascular, and cardiac autonomic responses to heated water-based HIIE versus moderate-intensity continuous exercise (MICE) in older individuals with hypertension. Methods Twenty older individuals (67 ± 7 y) under treatment for hypertension were randomly assigned to perform HIIE (25 min), MICE (30 min) and control (CON; 30 min) sessions in a heated swimming pool (30-32ºC). Blood pressure (BP), arterial stiffness, endothelial reactivity, and heart rate variability (HRV) were measured before (PRE), immediately after (POST), and after 45 min (REC). 24-h ambulatory BP monitoring and ambulatory HRV were also performed after each intervention. HRV were analyzed in ms² (ms²) or normalized units (nu) and then converted into natural logarithms (ln). Time domain markers as mean of intervals R-R (µi-RR), and frequency domain such as high frequency band (HF) and low frequency band (LF). Results Systolic BP increased at POST (p &lt; 0.05) in all interventions, with higher increases in CON (29 ± 3 mmHg) and MICE (19 ± 3 mmHg) than HIIE (9 ± 4 mmHg). Although systolic BP reduced at REC in all interventions, it returned to levels similar to PRE in HIIE, and continue at higher levels than PRE in MICE and CON. HIIE promoted a higher response on markers of parasympathetic modulation at REC compared to MICE (HFln,nu 0.14 ± 0.06, p = 0.02) and CON (µi-RR: 0.02 ± 0.01, p = 0.05). By contrast, during night-time, HIIE demonstrated a lower parasympathetic modulation than CON (HFln,nu: -0.06 ± 0.03, p = 0.05). In addition, CON showed a higher HRV during 24-h compared to HIIE and MICE. Conclusion Despite differences between interventions in BP and cardiac autonomic responses, heated water-based HIIE or MICE were not effective to improve hemodynamic and vascular responses. These results may have important implications in the management of older individuals with hypertension in heated water-based.

METHODS OF TRANSPORTATION AND NON-ISOTHERMAL MOVEMENT OF RHEOLOGICAL COMPLEX OILS

The article examines the non-isothermal effect of rheological compound oil and clarifies some methods of transportation of complex rheological characteristic oil and the effect of viscous liquids in pipes. The article presents several ways to improve oil transportation. These methods include the transportation of complex rheological oil with gas-saturated, thermally prepared, heated water. The most common method is to transport oil by heating with complex rheological properties. The pipeline through which heated oil is transported is called the hot pipeline. The article clarifies the movement of viscous liquids in pipes. Keywords: rheological oils, complex rheological properties, gas-saturated, thermally prepared, graphoanalysis, Gas-saturated transportation

Effect of Anthropogenic Factors on the Ecosystem of the Yenisei River Anabranch within the City of Krasnoyarsk

In recent decades, freshwater ecosystems have regularly experienced blooms of green algae (green tides), causing environmental and economic damage. Blooms of green alga Spirogyra sp. occur in the ‘Abakanskaya’ anabranch of the Yenisei River in summer months. The anabranch is influenced by several anthropogenic factors: construction of a dam in the upper reaches; heated water discharge from a thermal power plant; fish farming. The aim of this study was to assess the impact of anthropogenic factors on the ecosystem of the Abakanskaya anabranch and to identify the main factors favoring Spirogyra sp. blooms. Samples were taken in May-September 2018-2019 at four sites: 1 – upstream of the dam (control), 2 – downstream of the dam, 3 – near the point of heated water discharge, 4 – downstream of the fish farm. Physical and chemical parameters, biomass and species composition of phytoplankton, phytoperiphyton, zooplankton, zoobenthos, and higher water plants, gross primary production (GPP), nitrogen content in biomass of periphyton, higher plants, and zoobenthos were studied. The main factor that caused changes in the community was that there was no water flow in the anabranch because of the low capacity of the dam drainage pipes. While upstream of the dam most ecosystem features were within the limits typical for this part of the Yenisei River, downstream of the dam, the system seemed to change from lotic to lentic: percentage of motile forms of phytoplankton, biomass of zooplankton, percentage of true zooplankton species, taxon number and taxonomic diversity of zooplankton and zoobenthos became higher; phytoperiphyton primary production rose (because of Spirogyra sp. bloom); higher water plants thrived. The other investigated factors, namely, thermal, nutrient, and organic pollution evidently produced combined effect on the ecosystem because of the absence of water flow, and their specific effects were not obvious

Assessment of the electrical conductivity of thermally activated water jets containing injections of inhibiting salt used to extinguish electrical equipment at gas compressor stations

Introduction. One of the main problems of fire extinguishing at gas compressor stations is fires in confined spaces where electrical installations can be under voltage. To extinguish these fires, the co-authors propose to use jets of thermally activated water containing salts that inhibit burning. It is necessary to assess the electrical conductivity of water jets to prevent the exposure of fire-fighting units to electrical injuries.Materials and methods. In the experimental study, the principal electricity measuring instrument is digital dc megaohmmeter M4122U, which takes readings if operated from a laptop. The flow rate was measured using IT 2518 measurement complex and TDR14–2–3 primary flow converter of the turbine type. Termit T-35 hardness converter performed electromagnetic water treatment.Theoretical fundamentals. Measurements of leakage currents in jets of thermally activated water, fed through fire nozzles mounted onto a multi-purpose fire truck, were taken, and the maximum permissible distance to an electrical installation was determined experimentally and analytically using an experimental stand.Results and discussions. Averaged values of resistance of a jet of thermally activated water fed from a long-range nozzle at control points do not leave the confidence corridor with a probability of 0.95, which means that they do not cause a significant change in dc resistance. Inhibiting salt, injected into the water, reduces the resistance of jets of thermally activated water by no more than 2–3 % compared to under-heated water. The treatment of the inhibiting salt, injected into the under-heated water, using Termit T-35 hardness converter, does not significantly change the resistance of thermally activated water jets.Conclusions. It is theoretically and experimentally proved that the injection of inhibiting salts into the underheated water, as well as the electromagnetic treatment of water using low-power stiffness converters, do not significantly affect the electrical conductivity of jets of thermally activated water if compared to jets that contain no inhibiting admixtures. The extinguishing of surfaces of electrical installations using jets of thermally activated water containing flame inhibiting injections of salts, as well as the development of an inerting concentration in confined spaces of gas compressor stations is electrically safe for any person engaged in fire extinguishing.