Krčmář D., Šráček O., 2014: MODFLOW-USG: the New Possibilities in Mine Hydrogeology Modelling (or What is Not Written in the Manuals). Mine Water and the Environment, 33 (11)

Krcmar D., Marschalko M., Yilmaz I. Malik P., Cernak R., Svasta J., Kulman E., Rusnakova D., Popielarczyk D., Yang S., 2020: Mapping the low-enthalpy geothermal potential of Quaternary alluvial aquifers in Slovakia. Bulletin of Engineering Geology and the Environment (2)

Marschalko M., Krcmar D., Yilmaz I., Flakova R., Zenisova Z., 2018: Heat contamination in groundwater sourced from heat pump for heating in Bratislava (Slovakia)'s historic centre. Environmental Earth Sciences, 77 (5)

Krcmar D., Flakova R., Ondrejkova I., Hodasova K., Rusnakova D., Zenisova Z., Zatlakovic M., 2020: Assessing the Impact of a Heated Basement on Groundwater Temperatures in Bratislava, Slovakia. Groundwater, 58 (6)

Krcmar D., Marschalko M., Yilmaz I., Patschova A., Chalupkova K., Kovacs T., 2014: Potential pollution risk in natural environment of golf courses: an example from Rusovce (Slovakia). Environmental Earth Sciences, 72 (3)

Krcmar D., Flakova R., Ondrejkova I., Hodasova K., Rusnakova D., Zenisova Z., Zatlakovic M., 2020: Assessing the Impact of a Heated Basement on Groundwater Temperatures in Bratislava, Slovakia. Groundwater, 58 (6)

Krcmar D., Marschalko M., Yilmaz I. Malik P., Cernak R., Svasta J., Kulman E., Rusnakova D., Popielarczyk D., Yang S., 2020: Mapping the low-enthalpy geothermal potential of Quaternary alluvial aquifers in Slovakia. Bulletin of Engineering Geology and the Environment (2)

Marschalko, M, Yilmaz, I, Krčmář, D, Cheng, X, Kubáč, J, Kycl, P, 2019: A small-scale map analysis of the engineering-geological zone and landscape element dependencies for theland-use planning purposes in the Czech Republic. Environmental Earth Sciences 78, no. 1 (2019), p. [1-10] (1)

Krčmář, D., Kovács, T., Molnár, M., Hodasová, K., Zatlakovič, M., 2023: Estimating Thermal Impact on Groundwater Systems from Heat Pump Technologies: A Simplified Method for High Flow Rates. Hydrology , Roč. 10, č. 12 (2023), art. no. 225, s. [1-13], (0)

Rusnakova D., Krcmar D., Rusnak M., 2020: Urban heath island - analysis of the relationship between landscape utilization and groundwater temperature in Bratislava. GEOGRAPHICAL JOURNAL, Volume: 72 (0).

Heat contamination in groundwater sourced from heat pump for heating in Bratislava (Slovakia)'s historic centre Marschalko, Marian; Krcmar, David; Yilmaz, Isik…More, ENVIRONMENTAL EARTH SCIENCES, Volume 77, Issue 3, Published 2018 CITED IN: Estimation of Groundwater Temperatures in Paris, France By: Hemmerle, Hannes; Hale, Sina; Dressel, Ingo; et al., GEOFLUIDS  Volume: ‏ 2019   Article Number: UNSP 5246307  Published: ‏ JUN 17 2019 

Krcmar D., Flakova R., Ondrejkova I., Hodasova K., Rusnakova D., Zenisova Z., Zatlakovic M., 2020: Assessing the Impact of a Heated Basement on Groundwater Temperatures in Bratislava, Slovakia. Groundwater, 58 (4) CITED IN:Impact of simplifications on numerical modelling of the shallowsubsurface at city-scale and implications for shallowgeothermal potential, By: Makasis, N. , Kreitmair, M.J. , Bidarmaghz, A. , Science of the Total Environment Volume 791, 15 October 2021  Article Number: 148236  Available online: 8 June 2021

MODFLOW-USG: the New Possibilities in Mine Hydrogeology Modelling (or What is Not Written in the Manuals), Krcmar, David; Sracek, Ondra, MINE WATER AND THE ENVIRONMENT, Volume 33, Issue 4, Page 376-383, Published 2014, CITED IN: A Hydro-Economic Model for Optimizing Management of Mine Water: A Case Study in the Suancigou Coal Mine, Northwestern China Mu, WP; Wu, X; (...); Zhang, X Dec 2022 MINE WATER AND THE ENVIRONMENT, Published: ‏ DEC 2022 

Potential pollution risk in natural environment of golf courses: an example from Rusovce (Slovakia), Krcmar, David; Marschalko, Marian; Yilmaz, Isik …More, ENVIRONMENTAL EARTH SCIENCES, Volume 72, Issue 10, Page 4075-4084, Published 2014 CITED IN: A lysimeter study under field conditions of nitrogen and phosphorus leaching in a turf grass crop amended with peat and hydrogel, By: Martin del Campo, M. A.; Esteller, M. V.; Morell, I.; et al., SCIENCE OF THE TOTAL ENVIRONMENT  Volume: ‏ 648  Pages: ‏ 530-541  Published: ‏ JAN 15 2019

MODFLOW-USG: the New Possibilities in Mine Hydrogeology Modelling (or What is Not Written in the Manuals), Krcmar, David; Sracek, Ondra, MINE WATER AND THE ENVIRONMENT, Volume 33, Issue 4, Page 376-383, Published 2014, CITED IN: A Local Grid-Refined Numerical Groundwater Model Based on the Vertex-centred Finite-Volume Method Qian, YZ; Zhu, Y; (...); Yang, JZ, ADVANCES IN WATER RESOURCES, Published: ‏ Mar 2023 

The new methods of investigation for water - water type heat pumps. APVV-14-017, principal investigator, 2015 - 2019, research focused on origin, spread and heat transport in shallow aquifers below cities. Outcome from the project was creation of methodics for optimisation of heat pump system installation and for evaluation of protection areas aroud wells for heat pumps.

 Interaction of surface and groundwater and use of groundwater for water water types of heat pumps in urbanized area of Bratislava, VEGA 1/0871/17, 2017-2020, scientific co-worker, from 2019 principal investigator. The main goal of the project was the quantitative and qualitative analysis of hydrogeological factors influenced the water quality in the urbanized area of the Bratislava. The main result of the project was the analysis of the chemical composition of thermal utilize groundwater for water-water types of heat pumps, calculation of chemical equilibria in relation to water temperature change, calculation of saturation indices by using hydrogeochemical modelling and evaluation of aggressive properties of groundwater.

The new method of rock environment thermal response., VEGA 1/0302/21, 2021-2024, principal investigator. The main goal of the project is the new methodic creation for performing of thermal response test (TRT), which will be usable for aquifer with flowing groundwater.

Restoration and management of Danube floodplain habitats, LIFE14 NAT/SK/001306, 2015 - 2022, scientific co-worker. The project objective is to restore the key natural habitats of Danube floodplains and to introduce sound sustainable management.

Monitoring and water condition evaluation - III.rd stage. Operational Programme of Environment Quality, 2015 - 2020, scientific co-worker. The main goal of the project is guarantee of surface and groundwater monitoring realisation in Slovak republic in accordance with approved Programme of water monitoring in Slovakia.